Elite EF12P - Speaker YORKVILLE - Free user manual and instructions
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USER MANUAL Elite EF12P YORKVILLE
text_image
World map composed of black dots representing data points, with some dots marked as '0' or '1'.
WEB: www.yorkville.com
WORLD HEADQUARTERS
CANADA
Yorkville Sound Limited
550 Granite Court
Pickering, Ontario
L1W 3Y8 CANADA
Voice: 905-837-8481
Fax: 905-837-8746
U.S.A.
Yorkville Sound Inc.
4625 Witmer Industrial Estate
Niagara Falls, New York
14305, USA
Voice: 716-297-2920
Fax: 716-297-3689
Quality and Innovation Since 1963
Printed in Canada
SERVICE MANUAL
EF12P
SMT Disclaimer
Due to the complex nature of the use of SMT installed components in Yorkville equipment, we highly caution all service technicians in attempting to repair or replace SMT factory installed components.
Many of these components may be glued prior to initial soldering
Replacing SMT components requires expensive
specialized de-soldering equipment and training.
Yorkville Sound will repair and replace defective SMT components to ensure proper quality assurance and installation is maintained.
IMPORTANT SAFETY INSTRUCTIONS
This lightning flash with arrowhead symbol, within an
equilateral triangle, is intended to alert the user to the presence of uninsulated "dangerous voltage" within the product's enclosure that may be of sufficient magnitude to constitute a risk of electric shock to persons.
The DO NOT STACK symbol is inlanded to alert the user that the product shall not be vertically slacked because of the nature of the product.
The excitation point within an equilateral triangle is intended to alert the user to the presence of important operating and maintenance (servicing) instructions in the literature accompanying the appliance.
Instructions pertaining to a risk of fire, electric shock, or injury to a person
CAUTION: TO REDUCE THE RISK OF ELECTRIC SHOCK, DO NOT REMOVE COVER (OR BACK). NO USER SERVICEABLE PARTS INSIDE. REFER SERVICING TO QUALIFIED SERVICE PERSONNEL. THIS DEVICE IS FOR INDOOR USE ONLY! INSTALLED BATTERY PACKS SHALL NOT BE EXPOSED TO EXCESSIVE HEAT SUCH AS SUNSHINE, FIRE OR THE LIKE.
Read Instructions: The Owner's Manual should be read and understood before operation of your unit. Please, save these instructions for future reference and heed all warnings.
Cleaning: Clean only with dry cloth.
Packaging: Keep the box and packaging materials, in case the unit needs to be returned for service.
Warning: To reduce the risk or fire or electric shock, do not expose this apparatus to rain or moisture. Do not use this apparatus near water!
Warning: When using electric products, basic precautions should always be followed, including the following:
Power Sources
Your unit should be connected to a power source only of the voltage specified in the owners manual or as marked on the unit. This unit has a polarized plug. Do not use with an extension cord or receptacle unless the plug can be fully inserted. Precautions should be taken so that the grounding scheme on the unit is not defeated. An apparatus with CLASS I construction shall be connected to a Mains socket outlet with a protective earthing connection. Where the MAINS plug or an appliance coupler is used as the disconnect device, the disconnect device shall remain readily operable.
Hazards
Do not place this product on an unstable cart, stand, tripod, bracket or table. The product may fail, causing serious personal injury and serious damage to the product. Use only with cart, stand, tripod, bracket, or table recommended by the manufacturer or sold with the product. Follow the manufacturer's instructions when installing the product and use mounting accessories recommended by the manufacturer. Only use attachments/absaccessories specified by the manufacturer.
Equipment that is suspended overhead must use a secondary safeguard to prevent personal injury in the event the primary mounting mechanism fails. Safety eyebolts attached to the equipment and galvanized steel wire can be used together to implement a fallsafe mounting thus ensuring the safety of the equipment and anyone positioned below the equipment.
Improper installation can result in bodily injury or death. If you are not qualified to attempt the installation get help from a professional structural rigger. Notes: Prolonged use of headphones at a high volume may cause health damage to your ears.
The apparatus should not be exposed to dripping or splashing water; no objects filled with liquids should be placed on the apparatus.
Terminals marked with the "lightning bolt" are hazardous live; the external wiring connected to these terminals require installation by an instructed person or the use of ready made leads or cords.
Ensure that proper ventilation is provided around the appliance. Do not install near any heat sources such as radiators, heat registers, sloves, or other apparatus (including amplifiers) that produce heat.
No naked flame sources, such as lighted candles, should be placed on the apparatus.
Power Cord
Do not defeat the safety purpose of the polarized or grounding-type plug. A polarized plug has two blades with one wider than the other. A grounding type plug has two blades and a third grounding prong. The wide blades or the third prong are provided for your safety. If the provided plug does not fill into your outlet, consult an electrician for replacement of the obsolete outlet. The AC supply cord should be routed so that it is unlikely that it will be damaged. Protect the power cord from being walked on or pinched particularly at plugs. If the AC supply cord is damaged DO NOT OPERATE THE UNIT. To completely disconnect the apparatus from the AC Mains, disconnect the power supply cord plug from the AC receptacle. The mains plug of the power supply cord shall remain readily operable.
Unplug this apparatus during lightning storms or when unused for long periods of time.
Service
The unit should be serviced only by qualified service personnel. Servicing is required when the apparatus has been damaged in any way, such as power-supply cord or plug is damaged, liquid has been spilled or objects have fallen into the apparatus, the apparatus has been exposed to rain or moisture, does not operate normally, requires battery pack replacement or has been dropped. Disconnect power before servicing!
IMPORTANT SAFETY INSTRUCTIONS
The Lightning Flash with arrowhead symbol within an equilateral triangle, is intended to alert the user to the presence of uninsulated "dangerous voltage" within the product enclosure that may be of sufficient magnitude to constitute a risk of shock to persons
The exclamation point within an equilateral triangle is intended to alert the user to the presence of important operating and maintenance (servicing) instructions in the literature accompanying the product
-
Read these instructions.
-
Keep these instructions.
-
Head all warnings.
-
Follow all instructions.
-
Do not use this apparatus near water.
-
Clean only with dry cloth.
-
Do not block any ventilation openings. Install in accordance with the manufacturer's instructions.
-
Do not install near any heat sources such as radiators, heat registers, stoves, or other apparatus (including amplifiers) that produce heat.
-
Do not defeat the safety purpose of the polarized or grounding-type plug. Apolarized plug has two blades with one wider than the other. A grounding type plug has two blades and a third grounding prong. The wide blade or the third prongs are provided for your safety. If the provided plug does not fit into your outlet, consult an electrician for replacement of the obsolete outlet.
-
Protect the power cord from being walked on or pinched particularly at plugs, convenience receptacles, and the point where they exit from the apparatus.
-
Only use attachments/accessories specified by the manufacturer.
-
Use only with the cart, stand, tripod, bracket, or table specified by the manufacturer, or sold with the apparatus. When a cart is used, use caution when moving the cart/apparatus combination to avoid injury from lip-over.
-
Unplug this apparatus during lightning storms or when unused for long periods of time.
-
Refer all servicing to qualified service personnel. Servicing is required when the apparatus has been damaged in any way, such as power-supply cord or plug is damaged, liquid has been spilled or objects have fallen into the apparatus, the apparatus has been exposed to rain or moisture, does not operate normally, or has been dropped.
WARNING:
• To reduce the risk of fire or electric shock, do not expose this apparatus to rain or moisture and objects filled with liquids, such as vases, should not be placed on this apparatus.
• To completely disconnect this apparatus from the ac mains, disconnect the power supply cord plug from the ac receptacle.
- The mains plug of the power supply cord or appliance coupler shall remain readily accessible.
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LINE MIC MASTER Bluetooth™ 24/07 SUB 100Hz MODE CLUB CONCERT VOCAL USER LINK LINE MIC MAIN IN THRU Enable / Disable Hold 4 soc. to reset LED Flashing: Ready to Connect LED Circ Connected NOTE: THE YORKVILLE APP IS NEEDED TO CONTROL FUNCTIONS THROUGH BLUETOOTH™ AND IS NOT FOR STREAMING AUDIO! Yorkville élite EF12P 1200 WATT ACTIVE LOUDSPEAKER ENCLOSURE www.yorkville.com POWER ON OFF CE EF12P REV2 230V/ 50Hz 700mA FUSE T1.6AH 120VAC 60Hz 1.3A FUSE T3.15A Hablele BECHINED & MANUFACTURED BY YORKVILLE SOUND • TORONTO, CANADA CAUTION: REPLACE FUSE WITH SAME TYPE AND RATING ATTENTION: REMPLACER LE FUSIBLE DU MÊME TYPE ET DU MÊME COURANT NOMINAL CAUTION+AVIS PER OF ELECTRICAL SHOCK DO NOT OPEN PRODUCE OF COOLLECTRONIC WE PAS QUINER! LINE IN MIC IN MAIN IN LINK MIXER ENABLE DSP MAIN LEVEL BLUETOOTH CONTROL EF12P Contains Transmitter Quadra PFC IX: WAP8811 This device complies with Part 15 of the FSC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including| Specifications | ||||
| EF10P EF12P EF15P EF215P | ||||
| System Type | 2-Way 2-Way | 2-Way 2-Way | ||
| Active or Passive Active Active | Active Active | |||
| Program Power (watts) 500 watts (1000 watts Peak) | 1200 watts (2400 watts Peak) 1200 watts (2400 watts Peak) 1200 watts (2400 watts Peak) | |||
| Max SPL (dB) | 128dB Peak (122dB Continuous) 131dB Peak (125dB Continuous) 133dB Peak (127dB Continuous) 133dB Peak (127dB Continuous) | |||
| Frequency Response (Hz +/- 3dB) | 56 - 20k (Hz +/- 3dB) | 47 - 16k (Hz +/- 3dB) | 43 - 16k | 40 - 16k (Hz +/- 3dB) |
| Crossover Frequency (Hz) | 1800 1100 1100 1100 | |||
| Driver Configuration | 10-inch, 1.3-inch Diaphragm 12-inch, 3-inch Diaphragm | 15-inch, 3-inch Diaphragm 2 X 15-inch, 3-inch Diaphragm | ||
| HF Driver(s) | 1.3-inch Voice coil (Titanium Diaphragm) | 3-inch Voice coil (Titanium Diaphragm) | 3-inch Voicecoil (Titanium Diaphragm) | 3-inch Voicocell (Titanium Diaphragm) |
| HF Dispersion (H ^3 X ^3 V) 100x40 | 60x40 60x40 60x40 | |||
| LF Driver(s) | 10-inch Neo magnet w/2.5-inch Voice coil | 12-inch Neo magnet w/3-inch Voice coil | 15-inch neo magnet w/3-inch Voice coil | 2 X 15-inch neo magnet w/3-inch Voice coil |
| HF Power Amplifier (watts) | 100 | 300 | 300 | 300 |
| HF Amplifier Type | 2-Tier Class H | 3-Tier High Headroom | 3-Tier High Headroom | 3-Tier High Headroom |
| LF Power Amplifier (watts) 400 | 900 | 900 | 900 | |
| LF Amplifier Type | Class-D | Class-D | Class-D | Class-D |
| Power Cable | 25 ft (7.6m) Heavy Gauge Detachable IEC | 25 ft (7.6m) Heavy Gauge Detachable IEC | 25 ft (7.6m) Heavy Gauge Detachable IEC | 25 ft (7.6m) Heavy Gauge Detachable IEC |
| In / Out Connections | 1 x XLR & 1/4 inch Comb-jack Line Input | 1 x XLR & 1/4-inch Comb-jack Line Input | 1 x XLR & 1/4-inch Comb-jack Line Input | 1 x XLR & 1/4-inch Comb-jack Line Input |
| 1 x XLR microphone Input | 1 x XLR microphone Input | 1 x XLR microphone Input | 1 x XLR microphone Input | |
| 1 x XLR & 1/4-inch Comb-jack Main Input | 1 x XLR & 1/4-inch Comb-jack Main Input | 1 x XLR & 1/4-inch Comb-jack Main Input | 1 x XLR & 1/4-inch Comb-jack Main Input | |
| 1 x XLR-M Tinput | 1 x XLR-M Tinput | 1 x XLR-M Tinput | 1 x XLR-M Tinput | |
| Input Impedance (Bal/UnBal) | 95Kohms / 90Kohms | 95Kohms / 90Kohms | 95Kohms / 90Kohms | 95Kohms / 90Kohms |
| Input Sensitivity (Vrms Sine) | +4dBv / 1.23V | +4dBv / 1.23V | +4dBv / 1.23V | +4dBv / 1.23V |
| Controls | Mixer Enable | Mixer Enable | Mixer Enable | Mixer Enable |
| Mic Input w/level | Mic Input w/level | Mic Input w/level | Mic Input w/level | |
| Line Input w/level | Line Input w/level | Line Input w/level | Line Input w/level | |
| DSP Mode (Club, Concert, Vocal, Custom) | DSP Mode (Club, Concert, Vocal, Custom) | DSP Mode (Club, Concert, Vocal, Custom) | DSP Mode (Club, Concert, Vocal, Custom) | |
| Sub (100Hz HP Filter) | Sub (100Hz HP Filter) | Sub (100Hz HP Filter) | Sub (100Hz HP Filter) | |
| Bluetooth Control Enable | Bluetooth Control Enable | Bluetooth Control Enable | Bluetooth Control Enable | |
| Master Level | Master Level | Master Level | Master Level | |
| Bar Handles | 1 x Side / 1 x Top | 2 x Side / 1 x Top | 2 x Side / 1 x Top | 4 x Side / 1 x Top |
| Flypoints | 7 x 1⁄4-20 (2 Top, 2 Bottom, 2 Each Side, 1 Pullback) | 8 x 1⁄4-20 (2 Top, 2 Bottom, 2 Each Side, 2 Pullback) | 8 x 1⁄4-20 (2 Top, 2 Bottom, 2 Each Side, 2 Pullback) | 8 x 1⁄4-20 (2 Top, 2 Bottom, 2 Each Side, 2 Pullback) |
| Pole Mount Adapter (1 3/8"-3.5cm) | 1 Bottom (1 3/8-inch / 3.5cm) | 1 Bottom (1 3/8-inch / 3.5cm) | 1 Bottom (1 3/8-inch / 3.5cm) | N/A |
| Enclosure Materials | ABS Costed Baltic Birch Plywood | ABS Costed Baltic Birch Plywood | ABS Costed Baltic Birch Plywood | ABS Coated Baltic Birch Plywood |
| Dimensions (DWH xbackW, inches) | 13 x 13.7 x 20 x 9.5 | 14.25 x 16.25 x 25.5 x 9.75 | 14 x 18.5 x 30 x 12 | 14 X 18.5 X 44.5 X 12 |
| Dimensions (DWH xbackW, cm) | 33 x 34.6 x 50.8 x 24 | 36.2 x 41.3 x 64.8 x 24.8 | 35.6 x 47 x 76 x 30.5 | 35.6 X 47 X 113 X 30.5 |
| Weight (lbs/kg) | 42 / 19.1 | 59 / 26.8 | 64 / 29 | 93 / 42 |
Specifications subject to change without notice
Specifications systems a management auto press
Block Diagram for EF12P & EF15P (REV1)
DESIGNED & MANUFACTURED BY YORKVILLE SOUND
flowchart
graph TD
subgraph_Combiner_1["Combi-Jack"]
A1["Line"] --> B1["1 2"]
B1 --> C1["+"]
C1 --> D1["Level"]
D1 --> E1["Σ"]
E1 --> F["Mixer Enable"]
end
subgraph_Combiner_2["Combi-Jack"]
A2["Line"] --> B2["1 2"]
B2 --> C2["+"]
C2 --> D2["Level"]
D2 --> E2["Σ"]
E2 --> F
F --> G["Mixer Enable"]
end
subgraph_Microcontroller["Microcontroller"]
A3["Main In / Link"] --> B3["1 2"]
B3 --> C3["+"]
C3 --> D3["Level"]
D3 --> E3["Σ"]
E3 --> F
F --> G
G --> H["DAC"]
H --> I["DSP"]
I --> J["DAC"]
J --> K["Master Level"]
J --> L["Mode Sub Bluetooth"]
J --> M["TM"]
N["Bluetooth"] --> O["Main In / Link"]
N --> P["XLR"]
N --> Q["XLR"]
end
subgraph_Audio_Scope["Audio System"]
R1["HF AMP"] --> S1["Speaker"]
T1["LF AMP"] --> U1["Speaker"]
end
style Combiner_1 fill:#f9f,stroke:#333
style Combiner_2 fill:#f9f,stroke:#333
style Microcontroller fill:#ccf,stroke:#333
Block-Diag-EF12P-EF15P-00-1v1
Block Diagram for EF10P, EF12P, EF15P (REV2) & EF215P
DESIGNED & MANUFACTURED BY YORKVILLE SOUND
flowchart
graph TD
subgraph_Combiner_Jack["Combini-Jack"]
A1["Line"] --> B1["1/8-inch TRS"]
A2["Line"] --> B2["1/8-inch TRS"]
A3["Line"] --> B3["1/8-inch TRS"]
A4["Line"] --> B4["1/8-inch TRS"]
A5["Line"] --> B5["1/8-inch TRS"]
A6["Line"] --> B6["1/8-inch TRS"]
A7["Line"] --> B7["1/8-inch TRS"]
A8["Line"] --> B8["1/8-inch TRS"]
A9["Line"] --> B9["1/8-inch TRS"]
A10["Line"] --> B10["1/8-inch TRS"]
A11["Line"] --> B11["1/8-inch TRS"]
A12["Line"] --> B12["1/8-inch TRS"]
A13["Line"] --> B13["1/8-inch TRS"]
A14["Line"] --> B14["1/8-inch TRS"]
A15["Line"] --> B15["1/8-inch TRS"]
A16["Line"] --> B16["1/8-inch TRS"]
A17["Line"] --> B17["1/8-inch TRS"]
A18["Line"] --> B18["1/8-inch TRS"]
A19["Line"] --> B19["1/8-inch TRS"]
A20["Line"] --> B20["1/8-inch TRS"]
A21["Line"] --> B21["1/8-inch TRS"]
A22["Line"] --> B22["1/8-inch TRS"]
A23["Line"] --> B23["1/8-inch TRS"]
A24["Line"] --> B24["1/8-inch TRS"]
A25["Line"] --> B25["1/8-inch TRS"]
A26["Line"] --> B26["1/8-inch TRS"]
A27["Line"] --> B27["1/8-inch TRS"]
A28["Line"] --> B28["1/8-inch TRS"]
A29["Line"] --> B29["1/8-inch TRS"]
A30["Line"] --> B30["1/8-inch TRS"]
A31["Line"] --> B31["1/8-inch TRS"]
A32["Line"] --> B32["1/8-inch TRS"]
A33["Line"] --> B33["1/8-inch TRS"]
A34["Line"] --> B34["1/8-inch TRS"]
A35["Line"] --> B35["1/8-inch TRS"]
A36["Line"] --> B36["1/8-inch TRS"]
A37["Line"] --> B37["1/8-inch TRS"]
A38["Line"] --> B38["1/8-inch TRS"]
A39["Line"] --> B39["1/8-inch TRS"]
A40["Line"] --> B40["1/8-inch TRS"]
A41["Line"] --> B41["1/8-inch TRS"]
A42["Line"] --> B42["1/8-inch TRS"]
A43["Line"] --> B43["1/8-inch TRS"]
A44["Line"] --> B44["1/8-inch TRS"]
A45["Line"] --> B45["1/8-inch TRS"]
A46["Line"] --> B46["1/8-inch TRS"]
A47["Line"] --> B47["1/8-inch TRS"]
A48["Line"] --> B48["1/8-inch TRS"]
A49["Line"] --> B49["1/8-inch TRS"]
A50["Line"] --> B50["1/8-inch TRS"]
A51["Line"] --> B51["1/8-inch TRS"]
A52["Line"] --> B52["1/8-inch TRS"]
A53["Line"] --> B53["1/8-inch TRS"]
A54["Line"] --> B54["1/8-inch TRS"]
A55["Line"] --> B55["1/8-inch TRS"]
A56["Line"] --> B56["1/8-inch TRS"]
A57["Line"] --> B57["1/8-inch TRS"]
A58["Line"] --> B58["1/8-inch TRS"]
A59["Line"] --> B59["1/8-inch TRS"]
A60["Line"] --> B60["1/8-inch TRS"]
A61["Line"] --> B61["1/8-inch TRS"]
A62["Line"] --> B62["1/8-inch TRS"]
A63["Line"] --> B63["1/8-inch TRS"]
A64["Line"] --> B64["1/8-inch TRS"]
A65["Line"] --> B65["1/8-inch TRS"]
A66["Line"] --> B66["1/8-inch TRS"]
A67["Line"] --> B67["1/8-inch TRS"]
A68["Line"] --> B68["1/8-inch TRS"]
A69["Line"] --> B69["1/8-inch TRS"]
A70["Line"] --> B70["1/8-inch TRS"]
A71["Line"] --> B71a["XLR + 24V Phantom"]
end
subgraph Microcontroller
DSP["DSP ADC"]
DSP --> DAC["DAC"]
DAC --> Audio_Northout
Bluetooth["Bluetooth"]
DAC --> Audio_Northout
Audio_Northout --> Audio_Sub_Bluetooth
Master_Level --> Audio_Sub_Bluetooth
Mode_Sub_Bluetooth --> Audio_Sub_Bluetooth
TM["TM Mode Sub Bluetooth TM"]
subgraph Audio_Antenna
HF["HF AMP"]
LF_LF_AMP
EF2IPL["FE2IPL"]
subgraph Audio_Lower
MF["HF AMP"]
MF_LF_AMP
MF_Ump
MF_EF2IPL
end
M1497 02 Parts Reference List 9/28/2020
| REF Y3 Description REF Y3 | Description REF Y3 & Description REF | V8 A | Description REF Y3 & Description REF | V8 B Description | ||||||||||||
| 10-02 | M-49 | M-50 | M-51 | M-52 | M-53 | M-54 | M-55 | M-56 | M-57 | M-58 | M-59 | M-60 | M-61 | M-62 | M-63 | M-64 |
| 10-05 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-07 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-09 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-11 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-13 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-15 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-17 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-19 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-21 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-23 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-25 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-27 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-29 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-31 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-33 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-35 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-37 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-39 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-41 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-43 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-45 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-47 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-49 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-51 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-53 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-55 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-57 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-59 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-61 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-63 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-65 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-67 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-69 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-71 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-73 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-75 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-77 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-79 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-81 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-83 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-85 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-87 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-89 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-91 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-93 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-95 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-97 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 10-99 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 | 100 |
| 11-22 | M-49 | M-52 | M-54 | M-56 | M-58 | M-62 | M-64 | M-66 | M-68 | M-72 | M-74 | M-76 | M-78 | M-82 | M-84 | M-86 |
| 11-24 | M-52 | M-54 | M-56 | M-58 | M-62 | M-64 | M-66 | M-68 | M-72 | M-74 | M-76 | M-78 | M-82 | M-84 | M-86 | |
| REF YS # Description REF YS # | Description REF YS # Description | ||||||||||||||
| C1 | 470P 50V | 5%CAP | 0603 SMT NPO | R5 | W100 | 1K0 | 1% | 0805 SMT RES | R136 | W500 | 2K2 | 5% | 2010 SMT RES | ||
| C2 | _10U 16V | 20%CAP | 0805 SMT X5R | R6 | W500 | 2K2 | 5% | 2010 SMT RES | R137 | 1W00 | 10K | 5% | 2512 SMT RES | ||
| C3 | _10U 16V | 10%CAP | 0805 SMT X6S | R7 | W125 | 1M | 5% | 0805 SMT RES | R138 | W100 | 100R | 1% | 0805 SMT RES | ||
| C4 | _10N 50V | 10%CAP | 0805 SMT X7R | R8 | W250 | 10R | 5% | 1206 SMT RES | R139 | W100 | 100R | 1% | 0805 SMT RES | ||
| C5 | _10U 16V | 10%CAP | 1206 SMT X7R | R9 | W125 | 348R0 | 1% | 0805 SMT RES | R140 | 1W00 | 10K | 5% | 2512 SMT RES | ||
| C6 | _10U 16V | 20%CAP | 0805 SMT X5R | R10 | W125 | 3K32 | 1% | 0805 SMT RES | R141 | W500 | 2K2 | 5% | 2010 SMT RES | ||
| C7 | _4N7 50V | 10%CAP | 0805 SMT X7R | B11 | W125 | 3K32 | 1% | 0805 SMT RES | TP1 | TEST | POINT MINIATURE | SMT | |||
| C8 | _4N7 50V | 10%CAP | 0805 SMT X7R | B12 | 1W00 | 4R7 | 5% | 2512 SMT RES | TP2 | TEST | POINT MINIATURE | SMT | |||
| C9 | 100N 450V | 10%CAP | 1206 SMT X7T | B13 | W100 | 7K50 | 1% | 0805 SMT RES | D1 | LM39D | DUAL COMPARATOR SMT SO-8 | ||||
| C10 | 47P 100V | 5%CAP 0805 SMT NPO | B14 | 1W00 | 4R7 | 5% | 2512 SMT RES | D3 | IRS29 | 957S DIG AUDIO DRV R SMT SOIC | |||||
| C11 | _1U 25V | 20%CAP | 1206 SMT X7R | B15 | W125 | 3K32 | 1% | 0805 SMT RES | D5 | TL07 | CDR OPAMP JFET 3MHZ SO-8 SMT | ||||
| C12 | _10U 25V | 10%CAP | 1210 SMT X7R | B16 | 1W00 | 1K | 5% | 2512 SMT RES | D13 | OPA | 652 DUAL OPAMP SMT SO8 | ||||
| C13 | 100N 450V | 10%CAP | 1206 SMT X7T | B18 | W250 | 100R | 5% | 1206 SMT RES | R1 | 26 PIN | 25SQ 100 PIN SIL SMT | ||||
| C14 | _2U2 200V | 20%CAP | 3025 SMT CER | B19 | W500 | 2K2 | 5% | 2010 SMT RES | BD1 | MMBZ | 5246B 16V0 0W35 5% SMT ZEN3 | ||||
| C15 | _2U2 200V | 20%CAP | 3025 SMT CER | B20 | W125 | 3K32 | 1% | 0805 SMT RES | BD6 | MM32 | 15VT1G 15V0 0W2 5% SMT ZEN | ||||
| C16 | _2U2 100V | 20%CAP | 1812 SMT X7R | B21 | W125 | 3K32 | 1% | 0805 SMT RES | BD7 | MM32 | 15VT1G 15V0 0W2 5% SMT ZEN | ||||
| C17 | _2U2 100V | 20%CAP | 1812 SMT X7R | B22 | W125 | 150K | 5% | 0805 SMT RES | BD8 | MMBZ | 5246B 16V0 0W35 5% SMT ZEN3 | ||||
| C18 | 100N 50V | 5%CAP | 0805 SMT X7R | B23 | W125 | 33K | 5% | 0805 SMT RES | ZDP9 | MMBZ | 5246B 16V0 0W35 5% SMT ZEN3 | ||||
| C19 | _1U 25V | 20%CAP | 1206 SMT X7R | B24 | W100 | 100K0 | 1% | 0805 SMT RES | ZD10 | MMBZ | 5246B 16V0 0W35 5% SMT ZEN3 | ||||
| C21 | 100N 50V | 5%CAP | 0805 SMT X7R | B25 | W125 | 91K | 5% | 0805 SMT RES | |||||||
| C23 | _10U 25V | 10%CAP | 1210 SMT X7R | B26 | W125 | OR | 5% | 0805 SMT RES | |||||||
| C25 | _10U 16V | 20%CAP | 5X5.4 SMT NP | B27 | W125 | OR | 5% | 0805 SMT RES | |||||||
| C26 | _10U 16V | 20%CAP | 5X5.4 SMT NP | B28 | W125 | 3K32 | 1% | 0805 SMT RES | |||||||
| C27 | _10U 25V | 20%CAP | 5X5.4 SMT EL | B29 | W250 | OR | 1206 SMT RES | ||||||||
| C28 | _10U 25V | 20%CAP | 5X5.4 SMT EL | B31 | 1W00 | 47K | 5% | 2512 SMT RES | |||||||
| C29 | 100N 100V | 10%CAP | 1206 SMT X7R | B32 | W750 | OR | 1% | 6A 2010 SMT JMP | |||||||
| C32 | 100N 100V | 10%CAP | 1206 SMT X7R | B34 | W125 | OR | 5% | 0805 SMT RES | |||||||
| C33 | _47P 100V | 5%CAP | 0805 SMT NPO | B35 | W100 | 10K0 | 1% | 0805 SMT RES | |||||||
| C61 | _1N 50V | 5%CAP | 0805 SMT NPO | B38 | 1W00 | 33K | 5% | 2512 SMT RES | |||||||
| C64 | _47P 100V | 5%CAP | 0805 SMT NPO | B39 | 1W00 | 4R7 | 5% | 2512 SMT RES | |||||||
| C69 | 100N 50V | 5%CAP | 0805 SMT X7R | B40 | 1W00 | 4R7 | 5% | 2512 SMT RES | |||||||
| D1 | BAS21L | 250V 200MA SOT23 SMT | B41 | 1W00 | 15K | 5% | 2512 SMT RES | ||||||||
| D2 | MURA240T | 3 400V 2A DIO 403D SMT | B42 | W100 | 1K0 | 1% | 0805 SMT RES | ||||||||
| D3 | MURA240T | 3 400V 2A DIO 403D SMT | B43 | W500 | 2K2 | 5% | 2010 SMT RES | ||||||||
| D5 | MMBZ523T | 3 5V1 0W35 5% SMT ZEN | B44 | W500 | 220R | 1% | 1210 SMT RES | ||||||||
| D5_3T | MURA240T | 3 400V 2A DIO 403D SMT | B45 | 1W00 | OR27 | 1% | 75PPM 2010 SMT RES | ||||||||
| D6 | MMBZ523T | 3 5V1 0W35 5% SMT ZEN | B46 | W500 | 220R | 1% | 1210 SMT RES | ||||||||
| D6_3T | MURA240T | 3 400V 2A DIO 403D SMT | B47 | W100 | 1K0 | 1% | 0805 SMT RES | ||||||||
| D7 | MM3Z18VT | 1G 18VO 0W2 5% SMT ZEN | B48 | 1W00 | OR27 | 1% | 75PPM 2010 SMT RES | ||||||||
| D8 | BAV21WS | 200V 0A2 SOD323 SMT | B49 | 1W00 | OR27 | 1% | 75PPM 2010 SMT RES | ||||||||
| D9 | BAV21WS | 200V 0A2 SOD323 SMT | B50 | 1W00 | OR27 | 1% | 75PPM 2010 SMT RES | ||||||||
| D10 | BAS21L | 250V 200MA SOT23 SMT | B51 | W500 | 220R | 1% | 1210 SMT RES | ||||||||
| D11 | MM3Z15VT | 1G 15VO 0W2 5% SMT ZEN | B52 | W500 | 220R | 1% | 1210 SMT RES | ||||||||
| D12 | MURA240T | 3 400V 2A DIO 403D SMT | B53 | W500 | 2K2 | 5% | 2010 SMT RES | ||||||||
| D13 | BAV21WS | 200V 0A2 SOD323 SMT | B54 | W500 | 2K2 | 5% | 2010 SMT RES | ||||||||
| D14 | BAV21WS | 200V 0A2 SOD323 SMT | B55 | W500 | 2K2 | 5% | 2010 SMT RES | ||||||||
| D15 | MM3Z18VT | 1G 18VO 0W2 5% SMT ZEN | B56 | W100 | 100R | 1% | 0805 SMT RES | ||||||||
| D17 | BAV21WS | 200V 0A2 SOD323 SMT | B57 | 1W00 | 1K0 | 5% | 2512 SMT RES | ||||||||
| D30A | CDSF4148 | 75V 0A15 100S SMT | B58 | 1W00 | 1K0 | 5% | 2512 SMT RES | ||||||||
| D36 | BAS21L | 250V 200MA SOT23 SMT | B59 | W100 | 100R | 1% | 0805 SMT RES | ||||||||
| D37 | BAS21L | 250V 200MA SOT23 SMT | B60 | W750 | OR | 1% | 6A 2010 SMT JMP | ||||||||
| D38 | BAS21L | 250V 200MA SOT23 SMT | B61 | W250 | OR | 1206 SMT RES | |||||||||
| D42 | BAS21L | 250V 200MA SOT23 SMT | B61_3? | W125 | OR | 5% | 0805 SMT RES | ||||||||
| W1498 | W250 OR | 1206 SMT RES | B63 | 1W00 | OR | 5% | 2512 SMT RES | ||||||||
| P6 | _10K 25% | ACP KAP TRIM POT SMT T&R | B64 | W250 | OR | 1206 SMT RES | |||||||||
| PCBL | X8025BLANK 2 | DZ 1SD 107.5SQIN 08PER ALUM 1.5MM | B66 | W100 | 100K0 | 1% | 0805 SMT RES | ||||||||
| Q2 | MMBT540T | PNP SOT-23 SMT | B72 | W100 | 221R | 1% | 0805 SMT RES | ||||||||
| Q3 | MMBF439T | LT1 NCH JFET SOT-23 SMT T&R | B76 | W250 | OR | 1206 SMT RES | |||||||||
| Q4 | MJD243T4S | NPN DPAK3 SMT TS | B79 | W125 | 3K32 | 1% | 0805 SMT RES | ||||||||
| Q5 | IRFS4227T | BF NCH MFET D2PAK SMT TS | B82 | W250 | OR | 1206 SMT RES | |||||||||
| Q6 | IRFS4227T | BF NCH MFET D2PAK SMT TS | B87 | W250 | OR | 1206 SMT RES | |||||||||
| Q7 | MC7815BDT | TG POS REG SMT DPAK3 | B97_3? | W125 | OR | 5% | 0805 SMT RES | ||||||||
| Q8 | MC79M15C | DTG NEG REG SMT DPAK3 | B99 | 1W00 | 1K | 5% | 2512 SMT RES | ||||||||
| Q9 | IRF530NS | NCH MFET D2PAK SMT TS | B109 | W125 | 1M | 5% | 0805 SMT RES | ||||||||
| Q10 | IRF530NS | NCH MFET D2PAK SMT TS | B112 | W125 | 470R | 5% | 0805 SMT RES | ||||||||
| Q11 | 2SC4027 | NPN DPAK3 SMT TR | B113 | W100 | 10K0 | 1% | 0805 SMT RES | ||||||||
| Q12 | 2SC4027 | NPN DPAK3 SMT TR | B114 | W125 | 1K62 | 1% | 0805 SMT RES | ||||||||
| Q13 | STB13007D | T4 NPN D2PAK SMT | B116 | PTC | RESETTABLE 1.5A 6V 1812L SMT | ||||||||||
| Q14 | MMBF439T | LT1 NCH JFET SOT-23 SMT T&R | B117 | W125 | 1K50 | 1% | 0805 SMT RES | ||||||||
| Q15 | STB13007D | T4 NPN D2PAK SMT | B118 | W100 | 2K74 | 1% | 0805 SMT RES | ||||||||
| Q16 | 2SA1552 | PNP DPAK3 SMT TR | B119 | W125 | 470R | 5% | 0805 SMT RES | ||||||||
| Q17 | MMBTA64L | T1G PNP DARL SOT-23 SMT | B120 | W125 | 14K0 | 1% | 0805 SMT RES | ||||||||
| Q18 | 2SA1552 | PNP DPAK3 SMT TR | B121 | W100 | 10K0 | 1% | 0805 SMT RES | ||||||||
| Q19 | STB13007D | T4 NPN D2PAK SMT | B125 | W100 | 15K0 | 1% | 0805 SMT RES | ||||||||
| Q20 | STB13007D | T4 NPN D2PAK SMT | B126 | W125 | 17K8 | 1% | 0805 SMT RES | ||||||||
| Q21 | IRF9530NS | PCH MFET D2PAK SMT TS | B127 | W125 | 470R | 5% | 0805 SMT RES | ||||||||
| Q22 | IRF9530NS | PCH MFET D2PAK SMT TS | B130 | W100 | 15K0 | 1% | 0805 SMT RES | ||||||||
| R1 | W100 2K34 1% 0805 SMT RES | ||||||||||||||
| R2 | _47K 5% HERMISTOR NTC 0603 SMT R132 W125 47R 5% 0805 SMT RES | ||||||||||||||
| R4 | W100 10K 1% 0805 SMT RES R134 W100 221R 1% 0805 SMT RES | ||||||||||||||
M1501-59 03 Parts Reference List 10/26/2020
| REF YS # Description | REF YS # Description REF YS # | Description | ||||||||
| 1 | 470P 50V 5%CAP 0603 SMT NPO | R10 | W125 3K32 1% 0805 SMT RES | J5 | RS20967S DIG AUDIO DRVR SMT SOIC | |||||
| 2 | 10U 16V 20%CAP 0805 SMT X5R | R11 | W125 3K32 1% 0805 SMT RES | J5 | TL071CDR OPAMP JFET 3MHZ SO-8 SMT | |||||
| 3 | 10U 16V 10%CAP 0805 SMT X6S | R12 | 1W00 4R7 5% 2512 SMT RES | J13 | OPA1652 DUAL OPAMP SMT SO8 | |||||
| 4 | 10N 50V 10%CAP 0805 SMT X7R | R13 | W100 7K50 1% 0805 SMT RES | N1 | 26 PIN 25SQ 100 PIN SIL SMT | |||||
| 5 | 10U 16V 10%CAP 1206 SMT X7R | R14 | 1W00 4R7 5% 2512 SMT RES | Q5 | MMBZ5246B 16V0 0W35 5% SMT ZEN3 | |||||
| 6 | 10U 16V 20%CAP 0805 SMT X5R | R15 | W125 3K32 1% 0805 SMT RES | Q56 | MM3215VT1G 15V0 0W2 5% SMT ZEN | |||||
| 7 | 4N7 50V 10%CAP 0805 SMT X7R | R16 | 1W00 1K 5% 2512 SMT RES | Q57 | MM3215VT1G 15V0 0W2 5% SMT ZEN | |||||
| 8 | 4N7 50V 10%CAP 0805 SMT X7R | R18 | W250 100R 5% 1206 SMT RES | Q58 | MMBZ5246B 16V0 0W35 5% SMT ZEN3 | |||||
| 9 | 100N 450V 10%CAP 1206 SMT X7T | R19 | W500 2K2 5% 2010 SMT RES | |||||||
| 10 | 47P 100V 5%CAP 0805 SMT NPO | R20 | W125 3K32 1% 0805 SMT RES | |||||||
| 11 | 1U 25V 20%CAP 1206 SMT X7R | R21 | W125 3K32 1% 0805 SMT RES | |||||||
| 12 | 10U 25V 10%CAP 1210 SMT X7R | R22 | W125 150K 5% 0805 SMT RES | |||||||
| 13 | 100N 450V 10%CAP 1206 SMT X7T | R23 | W125 33K 5% 0805 SMT RES | |||||||
| 14 | 2U2 200V 20%CAP 3025 SMT CER | R24 | W100 100K0 1% 0805 SMT RES | |||||||
| 15 | 2U2 200V 20%CAP 3025 SMT CER | R25 | W125 91K 5% 0805 SMT RES | |||||||
| 16 | 2U2 100V 20%CAP 1812 SMT X7R | R26 | W125 OR 5% 0805 SMT RES | |||||||
| 17 | 2U2 100V 20%CAP 1812 SMT X7R | R27 | W125 OR 5% 0805 SMT RES | |||||||
| 18 | 100N 50V 5%CAP 0805 SMT X7R | R28 | W125 3K32 1% 0805 SMT RES | |||||||
| 19 | 1U 25V 20%CAP 1206 SMT X7R | R29 | W250 OR 1206 SMT RES | |||||||
| 21 | 100N 50V 5%CAP 0805 SMT X7R | R31 | 1W00 47K 5% 2512 SMT RES | |||||||
| 23 | 10U 25V 10%CAP 1210 SMT X7R | R32 | W750 OR 1% 6A 2010 SMT JMP | |||||||
| 25 | 10U 16V 20%CAP 5X5.4 SMT NP | R34 | W125 OR 5% 0805 SMT RES | |||||||
| 26 | 10U 16V 20%CAP 5X5.4 SMT NP | R35 | W100 10K0 1% 0805 SMT RES | |||||||
| 27 | 10U 25V 20%CAP 5X5.4 SMT EL | R36 | 1W00 33K 5% 2512 SMT RES | |||||||
| 28 | 10U 25V 20%CAP 5X5.4 SMT EL | R39 | 1W00 4R7 5% 2512 SMT RES | |||||||
| 29 | 100N 100V 10%CAP 1206 SMT X7R | R40 | 1W00 4R7 5% 2512 SMT RES | |||||||
| 32 | 100N 450V 10%CAP 1206 SMT X7T | R41 | 1W00 15K 5% 2512 SMT RES | |||||||
| 37 | 47P 100V 5%CAP 0805 SMT NPO | R42 | W100 1K0 1% 0805 SMT RES | |||||||
| 61 | 1N 50V 5%CAP 0805 SMT NPO | R43 | W500 2K2 5% 2010 SMT RES | |||||||
| 64 | 47P 100V 5%CAP 0805 SMT NPO | R44 | W500 220R 1% 1210 SMT RES | |||||||
| 69 | 100N 50V 5%CAP 0805 SMT X7R | R45 | 1W00 OR27 1% 75PPM 2010 SMT RES | |||||||
| 71 | BAS21L 250V 200MA SOT23 SMT | R46 | W500 220R 1% 1210 SMT RES | |||||||
| 72 | MURA240T3 400V 2A DIO 403D SMT | R47 | W100 1K0 1% 0805 SMT RES | |||||||
| 73 | MURA240T3 400V 2A DIO 403D SMT | R48 | 1W00 OR27 1% 75PPM 2010 SMT RES | |||||||
| 74 | 5237B 8V2 0W2 SOT-23 SMT ZEN | R49 | 1W00 OR27 1% 75PPM 2010 SMT RES | |||||||
| 75 | MMBZ5231B 5V1 0W35 5% SMT ZEN | R50 | 1W00 OR27 1% 75PPM 2010 SMT RES | |||||||
| 76 | MMBZ5231B 5V1 0W35 5% SMT ZEN | R51 | W500 220R 1% 1210 SMT RES | |||||||
| 77 | MM3Z18VT1G 18V0 0W2 5% SMT ZEN | R52 | W500 220R 1% 1210 SMT RES | |||||||
| 78 | BAV21WS 200V 0A2 SOD323 SMT | R53 | W500 2K2 5% 2010 SMT RES | |||||||
| 79 | BAV21WS 200V 0A2 SOD323 SMT | R54 | W500 2K2 5% 2010 SMT RES | |||||||
| 80 | BAS21L 250V 200MA SOT23 SMT | R55 | W500 2K2 5% 2010 SMT RES | |||||||
| 81 | MM3Z15VT1G 15V0 0W2 5% SMT ZEN | R56 | W100 100R 1% 0805 SMT RES | |||||||
| 82 | MURA240T3 400V 2A DIO 403D SMT | R60 | W750 OR 1% 6A 2010 SMT JMP | |||||||
| 83 | BAV21WS 200V 0A2 SOD323 SMT | R61 | W250 OR 1206 SMT RES | |||||||
| 84 | BAV21WS 200V 0A2 SOD323 SMT | R61_ZT | W125 OR 5% 0805 SMT RES | |||||||
| 85 | MM3Z18VT1G 18V0 0W2 5% SMT ZEN | R63 | 1W00 OR 5% 2512 SMT RES | |||||||
| 87 | BAV21WS 200V 0A2 SOD323 SMT | R64 | W250 OR 1206 SMT RES | |||||||
| 88 | CDSF4148 75V 0A15 1005 SMT | R65 | W100 100K0 1% 0805 SMT RES | |||||||
| 89 | BAS21L 250V 200MA SOT23 SMT | R72 | W100 221R 1% 0805 SMT RES | |||||||
| 90 | BAS21L 250V 200MA SOT23 SMT | R76 | W250 OR 1206 SMT RES | |||||||
| 91 | W250 OR 1206 SMT RES | R79 | W125 3K32 1% 0805 SMT RES | |||||||
| 96 | 10K 25% ACP KAP TRIM POT SMT T&R | R82 | W250 OR 1206 SMT RES | |||||||
| 98 | OZ 1SD 107.5SQIN 08PER ALUM 1.5MM | R87 | W250 OR 1206 SMT RES | |||||||
| 99 | MMBT5401 PNP SOT-23 SMT | R91_ZT | W125 OR 5% 0805 SMT RES | |||||||
| 100 | MMBF4391LT1 NCH JFET SOT-23 SMT T&R | R99 | 1W00 1K 5% 2512 SMT RES | |||||||
| 101 | MJD243T4G NPN DPAK3 SMT TS | R106_2 | W250 OR 1206 SMT RES | |||||||
| 102 | IRFS4227PBF NCH MFET D2PAK SMT TS | R107_2 | W250 OR 1206 SMT RES | |||||||
| 103 | IRFS4227PBF NCH MFET D2PAK SMT TS | R108 | W125 1M 5% 0805 SMT RES | |||||||
| 104 | MC7815BDTG POS REG SMT DPAK3 | R112 | W125 470R 5% 0805 SMT RES | |||||||
| 105 | MC79M15CDTG NEG REG SMT DPAK3 | R113 | W100 10K0 1% 0805 SMT RES | |||||||
| 106 | IRF530NS NCH MFET D2PAK SMT TS | R114 | W125 1K62 1% 0805 SMT RES | |||||||
| 107 | 2SC4027 NPN DPAK3 SMT TR | R116 | PTC RESETTABLE 1.5A 6V 1812L SMT | |||||||
| 108 | 2SC4027 NPN DPAK3 SMT TR | R117 | W125 1K50 1% 0805 SMT RES | |||||||
| 109 | STB1300DT4 NPN D2PAK SMT | R118 | W100 2K74 1% 0805 SMT RES | |||||||
| 110 | MMBF4391LT1 NCH JFET SOT-23 SMT T&R | R119 | W125 470R 5% 0805 SMT RES | |||||||
| 111 | STB1300DT4 NPN D2PAK SMT | R120 | W125 14K0 1% 0805 SMT RES | |||||||
| 112 | 2SA1552 PNP DPAK3 SMT TR | R121 | W100 10K0 1% 0805 SMT RES | |||||||
| 113 | MMBTA64LT1G PNP DARL SOT-23 SMT | R125 | W100 15K0 1% 0805 SMT RES | |||||||
| 114 | 2SA1552 PNP DPAK3 SMT TR | R126 | W125 17K8 1% 0805 SMT RES | |||||||
| 115 | STB1300DT4 NPN D2PAK SMT | R127 | W125 470R 5% 0805 SMT RES | |||||||
| 116 | STB1300DT4 NPN D2PAK SMT | R130 | W125 8K25 1% 0805 SMT RES | |||||||
| 117 | IRF9530NS PCH MFET D2PAK SMT TS | R131 | W125 47R 5% 0805 SMT RES | |||||||
| 118 | W100 2K74 1% 0805 SMT RES | R132 | W125 47R 5% 0805 SMT RES | |||||||
| 119 | 47K 5% THERMISTOR NTC 0603 SMT | R134 | W100 221R 1% 0805 SMT RES | |||||||
| 120 | W100 10K0 1% 0805 SMT RES | R136 | W500 2K2 5% 2010 SMT RES | |||||||
| 121 | W100 1K0 1% 0805 SMT RES | R138 | W100 100R 1% 0805 SMT RES | |||||||
| 122 | W500 2K2 5% 2010 SMT RES | R141 | W500 2K2 5% 2010 SMT RES | |||||||
| 123 | W125 1M 5% 0805 SMT RES | R141 | TEST POINT MINIATURE SMT | |||||||
| 124 | W250 10R 5% 1206 SMT RES | R141 | TEST POINT MINIATURE SMT | |||||||
| 125 | W125 34BR0 1% 0805 SMT RES | R141 | LM393D DUAL COMPARATOR SMT SO-B | |||||||
M1802 Parts Reference List 12/13/2018
| RIF | YS # | Description | RIF | YS # | Description | RIF | YS # | Description | RIF | YS # | Description | RIF | YS # | Description |
| 31 | 40 | 25V 20%CAP | 1206 SMT XTR | 296 | 56BP 50V 5%CAP 800S SMT COG | 37 | 4140 LTR WILE | PCB MT VERT 24MM A-SERIES | 374 | W125 1K02 0.1% | 800S SMT RES | 375 | W125 1K02 0.1% | 800S SMT RES |
| 32 | 100N | 16V 10%CAP | 850 SMT XTR | 296 | 100N 50V 5%CAP 800S SMT XTR | 38 | 4060 MAIN AXLR | PCB MT VERT CUMBER NEJAY | 38 | W125 1K009 0.1% | 800S SMT RES | 376 | W125 1K009 0.1% | 800S SMT RES |
| 33 | 100N | 16V 10%CAP | 1206 SMT XTR | 297 | 100N 50V 5%CAP 800S SMT XTR | 39 | 4210 DMW OR | PCB MT VST SPIN SUB 415K | 39 | W125 1K009 0.1% | 800S SMT RES | 377 | W125 1K009 0.1% | 800S SMT RES |
| 34 | 100N | 16V 10%CAP | 850 SMT XTR | 398 | 100N 16V 10%CAP 800S SMT XTR | 40 | 4016 LTR PFM | PCB MT VERT CUMBA AA-SRIFRS | 40 | W125 1K02 0.1% | 800S SMT RES | 378 | W125 1K02 0.1% | 800S SMT RES |
| 35 | 470P | 50%CAP | 850 SMT XTR | 399 | 100P 50%CAP 800S SMT XTR | 41 | 3640 SMT SMT | 800S SMT SMT | 41 | W125 1K009 0.1% | 800S SMT RES | 379 | W125 1K009 0.1% | 800S SMT RES |
| 36 | 100N | 16V 10%CAP | 850 SMT XTR | 3100 | 470P 50V 5%CAP 800S SMT NPO | 42 | FERRITE LEAD 600R 5100MHZ 800S SMT | 37 | W125 1K009 0.1% | 800S SMT RES | 380 | W125 1K009 0.1% | 800S SMT RES | |
| 37 | 100N | 16V 10%CAP | 850 SMT YSV | 3101 | 2NY 100V 10%CAP 800S SMT XTR | 43 | FERRITE LEAD 600R 5100MHZ 800S SMT | 379 | W125 1K009 0.1% | 800S SMT RES | 381 | W125 1K009 0.1% | 800S SMT RES | |
| 38 | 100N | 16V 10%CAP | 850 SMT XTR | 3102 | 100N 50V 5%CAP 800S SMT XTR | 44 | FERRITE LEAD 600R 5100MHZ 800S SMT | 380 | W125 1K009 0.1% | 800S SMT RES | 382 | W125 1K009 0.1% | 800S SMT RES | |
| 39 | 100N | 16V 10%CAP | 850 SMT XTR | 3103 | 100N 16V 10%CAP 800S SMT XTR | 45 | FERRITE LEAD 600R 5100MHZ 800S SMT | 38 | W125 1K009 0.1% | 800S SMT RES | 383 | W125 1K009 0.1% | 800S SMT RES | |
| 40 | 100N | 16V 10%CAP | 850 SMT XTR | 3104 | 100N 16V 10%CAP 800S SMT XTR | 46 | 2.224 COIL | SMT | 46 | W125 332R 0.5% | 800S SMT RES | 384 | W125 437S 0.5% | 800S SMT RES |
| 41 | 100N | 16V 10%CAP | 850 SMT XTR | 3105 | 100N 16V 10%CAP 800S SMT XTR | 47 | 126-24 COIL | SMT SMT | 47 | W125 1K009 0.1% | 800S SMT RES | 385 | W125 1K009 0.1% | 800S SMT RES |
| 42 | 100N | 16V 10%CAP | 850 SMT XTR | 3106 | 100N 16V 10%CAP 800S SMT XTR | 48 | FERRITE LEAD 600R 5100MHZ 800S SMT | 385 | W125 1K009 0.1% | 800S SMT RES | 386 | W125 1K009 0.1% | 800S SMT RES | |
| 43 | 100N | 16V 10%CAP | 850 SMT XTR | 3107 | 100N 16V 10%CAP 1200 SMT XTR | 49 | FERRITE LEAD 600R 5100MHZ 800S SMT | 385 | W125 332R 0.5% | 800S SMT RES | 387 | W125 1K009 0.1% | 800S SMT RES | |
| 44 | 100N | 16V 10%CAP | 850 SMT YSV | 3108 | 100N 16V 10%CAP 800S SMT XTR | 50 | YLL LEE | 1V7 20MA "20K SMT | 50 | W125 1K009 0.1% | 800S SMT RES | 388 | W125 1K009 0.1% | 800S SMT RES |
| 45 | 100N | 16V 10%CAP | 850 SMT XTR | 3109 | 100N 16V 10%CAP 1200 SMT XTR | 51 | ROXONRI | 1V7 20MA "20K SMT | 51 | W125 1K009 0.1% | 800S SMT RES | 389 | W125 1K009 0.1% | 800S SMT RES |
| 46 | 5N | 55V 5%CAP | 850 SMT NPO | 3110 | 15N 55V 5%CAP 800S SMT NPO | 52 | RFD PD 1V5 20MA "20B SMT | 52 | W125 1K009 0.1% | 800S SMT RES | 392 | W125 1K009 0.1% | 800S SMT RES | |
| 47 | 220P | 55V 5%CAP | 1206 SMT XTR | 3111 | 100N 16V 10%CAP 800S SMT XTR | 53 | 4434 KUB IN 50% SMT | 532 | W125 1K009 0.1% | 800S SMT RES | 394 | W125 1K009 0.1% | 800S SMT RES | |
| 48 | 10U | 16V 10%CAP | 850 SMT YSV | 3112 | 10U 16V 10%CAP 1200 SMT XTR | 54 | 4432 10K B IN 70VM | P32 | 50 | W125 1K009 0.1% | 800S SMT RES | 395 | W125 1K009 0.1% | 800S SMT RES |
| 49 | 100N | 16V 10%CAP | 850 SMT XTR | 3113 | 15N 55V 5%CAP 800S SMT NPO | 55 | 4432 10K B IN 70VM | P32 | 50 | W125 1K009 0.1% | 800S SMT RES | 396 | W125 1K009 0.1% | 800S SMT RES |
| 50 | 10U | 16V 10%CAP | 850 SMT YSV | 3114 | 15N 55V 5%CAP 800S SMT COG | 56 | M1002ULNK 2 DZ 2RD 5.855USN GPR CTEN"21WP | 56 | W125 1K02 0.1% | 800S SMT RES | 397 | W125 30K 0.5% | 800S SMT RES | |
| 51 | 10U | 16V 10%CAP | 1206 SMT XTR | 3115 | 680P 50V 5%CAP 800S SMT COG | 57 | MWT540I PAP SOT-23 SMT | 57 | W125 475R 0.1% | 800S SMT RES | 398 | W125 30K 0.5% | 800S SMT RES | |
| 52 | 47P | 55V 5%CAP | 850 SMT NPO | 3116 | 680P 50V 5%CAP 800S SMT COG | 58 | 12.284NHQ CTETAL 4-PW SAT | 58 | W125 2K74 0.1% | 800S SMT RES | 399 | W125 1K02 0.1% | 800S SMT RES | |
| 53 | 100N | 16V 10%CAP | 850 SMT XTR | 3117 | 100N 50V 5%CAP 800S SMT XTR | 59 | MWT541A HFN DORL SUT 23 SMT | 59 | W125 1K02 0.1% | 800S SMT RES | 400 | W125 475R 0.1% | 800S SMT RES | |
| 54 | 100N | 16V 10%CAP | 850 SMT XTR | 3118 | 100N 50V 5%CAP 800S SMT XTR | 60 | MWT540I PAP SOT-23 SMT | 59 | W125 38K 0.2% | 800S SMT RES | 400 | W125 1K02 0.1% | 800S SMT RES | |
| 55 | 10U | 16V 10%CAP | 850 SMT YSV | 3119 | 4NY 55V 10%CAP 800S SMT XTR | 61 | 2X700D NCF PET 5OT-23 SMT TAR | 61 | W125 64K8 0.1% | 800S SMT RES | 400 | W125 1K02 0.1% | 800S SMT RES | |
| 56 | 10U | 16V 10%CAP | 850 SMT YSV | 3120 | 15N 55V 5%CAP 800S SMT NPO | 62 | 2X700D NCF PET 5OT-23 SMT TAR | 62 | W125 475R 0.1% | 800S SMT RES | 400 | W125 1K02 0.1% | 800S SMT RES | |
| 57 | 10U | 16V 10%CAP | 850 SMT XTR | 3121 | 100N 50V 5%CAP 800S SMT XTR | 63 | 2X700D NCF PET 5OT-23 SMT TAR | 63 | W125 475R 0.1% | 800S SMT RES | 401 | W125 1K02 0.1% | 800S SMT RES | |
| 58 | 100N | 16V 10%CAP | 850 SMT XTR | 3122 | 15N 55V 5%CAP 800S SMT XTR | 64 | W72478 NCF 800S SMT RFS | 64 | W125 1K02 0.1% | 800S SMT RES | 401 | W125 1K02 0.1% | 800S SMT RES | |
| 59 | 10U | 16V 10%CAP | 850 SMT XTR | 3123 | 10U 16V 10%CAP 800S SMT XTR | 65 | W72478 NCF 800S SMT RFS | 65 | W125 1K02 0.1% | 800S SMT RES | 402 | W125 1K02 0.1% | 800S SMT RES | |
| 60 | 10U | 16V 10%CAP | 850 SMT YSV | 3124 | 4NY 55V 10%CAP 800S SMT XTR | 66 | W72478 NCF 800S SMT RFS | 66 | W125 1K02 0.1% | 800S SMT RES | 402 | W125 1K02 0.1% | 800S SMT RES | |
| 61 | 10U | 16V 10%CAP | 850 SMT YSV | 3125 | 15N 55V 5%CAP 800S SMT XTR | 67 | W72478 NCF 800S SMT RFS | 67 | W125 1K02 0.1% | 800S SMT RES | 403 | W125 1K02 0.1% | 800S SMT RES | |
| 62 | 10U | 16V 10%CAP | 850 SMT XTR | 3126 | 10N 50V 5%CAP 800S SMT XTR | 68 | W72478 NCF 800S SMT RFS | 68 | W125 1K02 0.1% | 800S SMT RES | 403 | W125 1K02 0.1% | 800S SMT RES | |
| 63 | 10U | 16V 10%CAP | 850 SMT XTR | 3127 | 15N 55V 5%CAP 800S SMT XTR | 69 | W72478 NCF 800S SMT RFS | 69 | W125 1K02 0.1% | 800S SMT RES | 404 | W125 1K02 0.1% | 800S SMT RES | |
| 64 | 10U | 16V 10%CAP | 850 SMT XTR | 3128 | 4NY 55V 5%CAP 800S SMT XTR | 70 | W72478 NCF 800S SMT RFS | 70 | W125 1K02 0.1% | 800S SMT RES | 404 | W125 1K02 0.1% | 800S SMT RES | |
| 65 | 10U | 16V 10%CAP | 850 SMT XTR | 3129 | 15N 55V 5%CAP 800S SMT XTR | 71 | W72478 NCF 800S SMT RFS | 71 | W125 1K02 0.1% | 800S SMT RES | 405 | W125 1K02 0.1% | 800S SMT RES | |
| 66 | 10U | 16V 10%CAP | 850 SMT XTR | 3130 | 4NY 55V 5%CAP 800S SMT XTR | 72 | W72478 NCF 800S SMT RFS | 72 | W125 1K02 0.1% | 800S SMT RES | 405 | W125 1K02 0.1% | 800S SMT RES | |
| 67 | 10U | 16V 10%CAP | 850 SMT XTR | 3131 | 15N 55V 5%CAP 800S SMT XTR | 73 | W72478 NCF 800S SMT RFS | 73 | W125 1K02 0.1% | 800S SMT RES | 406 | W125 1K02 0.1% | 800S SMT RES | |
| 68 | 10U | 16V 10%CAP | 850 SMT XTR | 3132 | 4NY 55V 5%CAP 800S SMT XTR | 74 | W72478 NCF 800S SMT RFS | 74 | W125 1K02 0.1% | 800S SMT RES | 406 | W125 1K02 0.1% | 800S SMT RES | |
| 69 | 10U | 16V 10%CAP | 850 SMT XTR | 3133 | 15N 55V 5%CAP 800S SMT XTR | 75 | W72478 NCF 800S SMT RFS | 75 | W125 1K02 0.1% | 800S SMT RES | 407 | W125 1K02 0.1% | 800S SMT RES | |
| 70 | 10U | 16V 10%CAP | 850 SMT XTR | 3134 | 4NY 55V 5%CAP 800S SMT XTR | 76 | W72478 NCF 800S SMT RFS | 76 | W125 1K02 0.1% | 800S SMT RES | 407 | W125 1K02 0.1% | 800S SMT RES | |
| 71 | 10U | 16V 10%CAP | 850 SMT XTR | 3135 | 15N 55V 5%CAP 800S SMT XTR | 77 | W72478 NCF 800S SMT RFS | 77 | W125 1K02 0.1% | 800S SMT RES | 408 | W125 1K02 0.1% | 800S SMT RES | |
| 72 | 47P | 55V 5%CAP | 850 SMT NPO | 3136 | 15N 55V 5%CAP 800S SMT XTR | 78 | W72478 NCF 800S SMT RFS | 78 | W125 1K02 0.1% | 800S SMT RES | 408 | W125 1K02 0.1% | 800S SMT RES | |
| 73 | 10U | 55V 5%CAP | 850 SMT XTR | 3137 | 15N 55V 5%CAP 800S SMT XTR | 79 | W72478 NCF 800S SMT RFS | 79 | W125 1K02 0.1% | 800S SMT RES | 409 | W125 1K02 0.1% | 800S SMT RES | |
| 74 | 10U | 55V 5%CAP | 850 SMT XTR | 3138 | 15N 55V 5%CAP 800S SMT XTR | 80 | W72478 NCF 800S SMT RFS | 80 | W125 1K02 0.1% | 800S SMT RES | 410 | W125 1K02 0.1% | 800S SMT RES | |
| 75 | 10U | 55V 5%CAP | 850 SMT XTR | 3139 | 15N 55V 5%CAP 800S SMT XTR | 81 | W72478 NCF 800S SMT RFS | 81 | W125 1K02 0.1% | 800S SMT RES | 411 | W125 1K02 0.1% | 800S SMT RES | |
| 76 | 10U | 55V 5%CAP | 850 SMT XTR | 3140 | 15N 55V 5%CAP 800S SMT XTR | 82 | W72478 NCF 800S SMT RFS | 82 | W125 1K02 0.1% | 800S SMT RES | 412 | W125 1K02 0.1% | 800S SMT RES | |
| 77 | 10U | 55V 5%CAP | 850 SMT XTR | 3141 | 15N 55V 5%CAP 800S SMT XTR | 83 | W72478 NCF 800S SMT RFS | 83 | W125 1K02 0.1% | 800S SMT RES | 413 | W125 1K02 0.1% | 800S SMT RES | |
| 78 | 10U | 55V 5%CAP | 850 SMT XTR | 3142 | 15N 55V 5%CAP 800S SMT XTR | 84 | W72478 NCF 800S SMT RFS | 84 | W125 1K02 0.1% | 800S SMT RES | 414 | W125 1K02 0.1% | 800S SMT RES | |
| 79 | 10U | 55V 5%CAP | 850 SMT XTR | 3143 | 15N 55V 5%CAP 800S SMT XTR | 85 | W72478 NCF 800S SMT RFS | 85 | W125 1K02 0.1% | 800S SMT RES | 415 | W125 1K02 0.1% | 800S SMT RES | |
| 80 | 10U | 55V 5%CAP | 850 SMT XTR | 3144 | 15N 55V 5%CAP 800S SMT XTR | 86 | W72478 NCF 800 |
| REF YS # Description REF YS # | ||||||||||
| A1-A33 | M1803-59 E | F15P/12P/10P PS/AMP V2 | R233 | W100 | 4K75 1% | 0805 SMT RES | ||||
| C38 | —4U7 | 25V 20%CAP 4X5.5 SMT ELC | R234 | W100 | 4K75 1% | 0805 SMT RES | ||||
| C39 | 1U 50V 20%CAP 4.3X3.9 SMT ELC | R235 | W100 | 4K75 1% | 0805 SMT RES | |||||
| C40 | 5910 4700U | 100V 10%CAP BLK 35X40MM 4PS | R236 | W100 | 4K75 1% | 0805 SMT RES | ||||
| C41 | 5670 3300U | 63V 20%CAP 18X40MM CUT5MM EL | R237 | W100 | 4K75 1% | 0805 SMT RES | ||||
| C42 | 5860 3300U | 35V 20%CAP BLK 16X35.5MM EL | R238 | W100 | 4K75 1% | 0805 SMT RES | ||||
| C43 | 5860 3300U | 35V 20%CAP BLK 16X35.5MM EL | R239 | W100 | 4K75 1% | 0805 SMT RES | ||||
| C44 | 5670 3300U | 63V 20%CAP 18X40MM CUT5MM EL | R240 | W100 | 4K75 1% | 0805 SMT RES | ||||
| C45 | 5910 4700U | 100V 10%CAP BLK 35X40MM 4PS | R241 | W125 | 64K9 1% | 0805 SMT RES | ||||
| C49 | 2N7 100V 10%CAP 0805 SMT X7R | R242 | W125 | 64K9 1% | 0805 SMT RES | |||||
| C51 | 5933 4U7 | 100DC10%CAP BLK RAD POLYE FLM | R243 | W125 | 64K9 1% | 0805 SMT RES | ||||
| C53 | —10U | 16V 20%CAP 5X5.4 SMT NP | R244 | W125 | 17K8 1% | 0805 SMT RES | ||||
| C145 | —1U | 50V 20%CAP 4.3X3.9 SMT ELC | R245 | W100 | 20K5 1% | 0805 SMT RES | ||||
| C146 | —1U | 50V 20%CAP 4.3X3.9 SMT ELC | R246 | W125 17K8 1% | 0805 SMT RES | |||||
| C151 | 150P | 1000V 5%CAP 1206 SMT COG | R247 | W100 | 20K5 1% | 0805 SMT RES | ||||
| C152 | 150P | 1000V 5%CAP 1206 SMT COG | R248 | W125 | 17K8 1% | 0805 SMT RES | ||||
| C153 | 150P | 1000V 5%CAP 1206 SMT COG | R249 | W100 | 20K5 1% | 0805 SMT RES | ||||
| C154 | 47N | 100V 10%CAP 1206 SMT X7R | M2 | 6535 HEADER SIL (FEMALE) 26 SOCKET | ||||||
| C1 | CDSF | 148 75V 0A15 1005 SMT | M6 | 2328 8 CIR XH-HEADER 0.098IN | ||||||
| D2 | CDSF | 148 75V 0A15 1005 SMT | M7 | 2327 6 CIR XH-HEADER 0.098IN | ||||||
| D3 | MMBZ5252B 24V0 0W35 5% SMT ZEN | M8 | 4145 9PIN BX3 POWER PIN HEADER | |||||||
| D5 | 3SMA | 5932B 20V 3W0 DO214AC SMT ZEN | M12 | 3538 24 PIN BREAKAWAY LOCK .156 | ||||||
| D7 | MM3Z | 8VT1G 18V0 0W2 5% SMT ZEN | ||||||||
| D8 | CDSF | 148 75V 0A15 1005 SMT | ||||||||
| D9 | CDSF | 148 75V 0A15 1005 SMT | ||||||||
| D10 | ES3D | 200V 3A0 D214 SMT SMC | ||||||||
| D11 | ES3D | 200V 3A0 D214 SMT SMC | ||||||||
| D12 | ES3D | 200V 3A0 D214 SMT SMC | ||||||||
| D13 | ES3D | 200V 3A0 D214 SMT SMC | ||||||||
| D14 | ES3D | 200V 3A0 D214 SMT SMC | ||||||||
| D15 | ES3D | 200V 3A0 D214 SMT SMC | ||||||||
| D16 | ES3D | 200V 3A0 D214 SMT SMC | ||||||||
| D17 | ES3D | 200V 3A0 D214 SMT SMC | ||||||||
| D18 | ES3D | 200V 3A0 D214 SMT SMC | ||||||||
| D19 | ES3D | 200V 3A0 D214 SMT SMC | ||||||||
| D20 | ES3D | 200V 3A0 D214 SMT SMC | ||||||||
| D21 | ES3D | 200V 3A0 D214 SMT SMC | ||||||||
| D22 | ES3D | 200V 3A0 D214 SMT SMC | ||||||||
| D23 | ES3D | 200V 3A0 D214 SMT SMC | ||||||||
| F1 | FUSE | AG 0A4 250V T&R | ||||||||
| F6 | 4.7U H 20% COIL 12MM SMT | |||||||||
| F7 | 192U H CHOKE 74T20AWG/77256MAGNTKS | |||||||||
| L11 | 486UH COIL COMMON MODE 8A SMT | |||||||||
| S4 | MMBT 401 PNP SOT-23 SMT | |||||||||
| S5 | T810-400G-TR 8A TRIAC D2PAK SMT | |||||||||
| S6 | MBS4 92 TO92 8V5 DIAC T&R | |||||||||
| S15 | MJD12 NPN DARL DPAK3 SMT | |||||||||
| S16 | MMBT 904 NPN SOT-23 SMT | |||||||||
| R28 | W125 2K2 5% 0805 SMT RES | |||||||||
| R29 | W125 1M 5% 0805 SMT RES | |||||||||
| R30 | W100 10K0 1% 0805 SMT RES | |||||||||
| R31 | FUSE SLOW 7A 125V SMT 6125 | |||||||||
| R34 | FUSE SLOW 7A 125V SMT 6125 | |||||||||
| R38 | W250 10R 5% 1206 SMT RES | |||||||||
| R42 | W125 30K 0.5% 0805 SMT RES | |||||||||
| R44 | W250 10R 5% 1206 SMT RES | |||||||||
| R46 | W250 22R 5% 1206 SMT RES | |||||||||
| R144 | W125 17K8 1% 0805 SMT RES | |||||||||
| R145 | W125 17K8 1% 0805 SMT RES | |||||||||
| R146 | W125 17K8 1% 0805 SMT RES | |||||||||
| R204 | W250 10R 5% 1206 SMT RES | |||||||||
| R205 | W250 10R 5% 1206 SMT RES | |||||||||
| R206 | W100 4R7 5% 0805 SMT RES | |||||||||
| R207 | W100 15K0 1% 0805 SMT RES | |||||||||
| R208 | W100 475R 1% 0805 SMT RES | |||||||||
| R218 | W100 15K0 1% 0805 SMT RES | |||||||||
| R219 | W100 15K0 1% 0805 SMT RES | |||||||||
| R220 | W100 15K0 1% 0805 SMT RES | |||||||||
| R221 | W100 15K0 1% 0805 SMT RES | |||||||||
| R222 | W100 15K0 1% 0805 SMT RES | |||||||||
| R223 | W100 15K0 1% 0805 SMT RES | |||||||||
| R224 | W125 64K9 1% 0805 SMT RES | |||||||||
| R225 | W125 64K9 1% 0805 SMT RES | |||||||||
| R226 | W125 64K9 1% 0805 SMT RES | |||||||||
| R227 | W100 7K50 1% 0805 SMT RES | |||||||||
| R228 | W100 7K50 1% 0805 SMT RES | |||||||||
| R229 | W100 7K50 1% 0805 SMT RES | |||||||||
| R230 | W100 7K50 1% 0805 SMT RES | |||||||||
| R231 | W100 4K75 1% 0805 SMT RES | |||||||||
| R232 | W100 4K75 1% 0805 SMT RES | |||||||||
M1804 Parts Reference List 12/13/2018
| REF YS # Description REF YS # | Description REF YS # Description | ||||||||
| 346 | 5242 | 100N 250V 20%CAP BLK 'X2' 15MM AC | |||||||
| 347 | 5266 | 880N 250V 20%CAP BLK 'X2' 27MM AC | |||||||
| 348 | 6451 | 4N7 250V 20%CAP BLK 'Y' 10MM AC | |||||||
| 45 | 6492 | 1300UH COIL COMMON MODE 4AMP | |||||||
| 49 | 4147 | 6 PIN POWER PIN HEADER MALE POLZED | |||||||
| 410 | 4147 | 6 PIN POWER PIN HEADER MALE POLZED | |||||||
| 411 | 4162 | 2 PIN POWER PIN HEADER MALE POLZED | |||||||
| 4147 | 6 PIN POWER PIN HEADER MALE POLZED | ||||||||
| 410 | 4147 | 6 PIN POWER PIN HEADER MALE POLZED | |||||||
| 411 | 4162 | 2 PIN POWER PIN HEADER MALE POLZED | |||||||
flowchart
graph TD
subgraph Power Source
A["ACI_Cou"] --> B["ACI_SCH"]
C["ACI_To"] --> D["ACI_PSS"]
E["ACI_Mo"] --> F["ACI_RST"]
G["ACI_No"] --> H["ACI_SCH"]
I["ACI_No"] --> J["ACI_PSS"]
K["ACI_No"] --> L["ACI_SCH"]
M["ACI_No"] --> N["ACI_PSS"]
O["ACI_No"] --> P["ACI_SCH"]
Q["ACI_No"] --> R["ACI_PSS"]
S["ACI_No"] --> T["ACI_SCH"]
end
subgraph Control
U["Power Supply"] --> V["Control Signals"]
W["Control Signals"] --> X["Control Signals"]
end
subgraph Capacitor
Y["ACI_Cou"] --> Z["ACI_SCH"]
AA["ACI_To"] --> AB["ACI_PSS"]
AC["ACI_Mo"] --> AD["ACI_SCH"]
AE["ACI_No"] --> AF["ACI_SCH"]
AG["ACI_No"] --> AH["ACI_PSS"]
AI["ACI_No"] --> AJ["ACI_SCH"]
end
subgraph Capacitor_Inductors
AK["ACI_Cou"] --> AL["ACI_SCH"]
AM["ACI_To"] --> AN["ACI_PSS"]
AO["ACI_Mo"] --> AP["ACI_SCH"]
AQ["ACI_No"] --> AR["ACI_SCH"]
AS["ACI_No"] --> AT["ACI_PSS"]
AU["ACI_No"] --> AV["ACI_SCH"]
end
subgraph Capacitor_Resistors
AW["ACI_Cou"] --> AX["ACI_SCH"]
AY["ACI_To"] --> AZ["ACI_PSS"]
BA["ACI_Mo"] --> BB["ACI_SCH"]
BC["ACI_No"] --> BD["ACI_SCH"]
end
subgraph Capacitor_Resistors_Resistor
BE["ACI_Cou"] --> BF["ACI_SCH"]
BG["ACI_To"] --> BH["ACI_PSS"]
BI["ACI_Mo"] --> BJ["ACI_SCH"]
BK["ACI_No"] --> BL["ACI_SCH"]
end
subgraph Capacitor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor 3038 Cable
end
subgraph Capacitor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_2038 Cable
end
subgraph Capacitor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_2038 Cable
end
subgraph Capacitor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_2038 Cable
end
subgraph Capacitor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_Resistor_2038 Cable
end
subgraph Capacitor_Resistor_Resistor_Resistor_Resistor_Resistor_2038 Cable
end
subgraph Capacitor_Resistor_Resistor_Resistor_Resistor_2038 Cable
end
subgraph Capacitor_Resistor_Resistor_Resistor_2038 Cable
end
subgraph Capacitor_Resistor_Resistor_2038 Cable
end
subgraph Capacitor_Resistor_2038 Cable
end
subgraph Capacitor_2038 Cable
end
subgraph Capacitor_2038 Cable
end
subgraph Capacitor 2038 Cable
end
subgraph Capacitor 2038 Cable
end
subgraph Capacitor 2038 Cable
end
subgraph Capacitor 2038 Cable
end
subgraph Capacitor 2038 Cable
end
subgraph Capacitor 2038 Cable
end
subgraph Capacitor 2038 Cable
end
end
subgraph Capacitor 2038 Cable
end
subgraph Capacitor 2038 Cable
end
subgraph Capacitor 2038 Cable
end
subgraph Capacitor 2038 Cable
end
subgraph Capacitor 2038 Cable
end
subgraph Capacitor 2038 Cable
end
subgraph Capacitor 2044 Cable
end
subgraph Capacitor 2044 Cable
end
subgraph Capacitor 2044 Cable
end
subgraph Capacitor 2044 Cable
end
subgraph Capacitor 2044 Cable
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subgraph Capacitor 2044 Cable
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subgraph Capacitor 2044 Cable
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subgraph Capacitors 2044 Cable
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subgraph Capacitors 2044 Cable
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subgraph Capacitors 2044 Cable
end
subgraph Capacitors 2044 Cable
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subgraph Capacitors 2044 Cable
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subgraph Capacitors 2044 Cable
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subgraph Capacitors 2044 Cable
end
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PreAmp MAIN INPUT THRU LIMIT INDICATOR CLIP INDICATOR LINE IN MIC MIXER ENABLE PreAmp Yorkville CF10P-EF12P-EF15P M-403 2.15V DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-
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AD Ret C99 H186 K76 C98 100V 100V 100V 100V 10V NDU C137 +5Vref C138 +5Vref C135 100V U19 C133 100V C134 LDOE VDD18 DVSS AIN_HI_SENS+ 50V 100V C62 100V C73 AIN_HI_SENS- AIN_LO_SENS+ AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS+ VREFH1 VREFH1 L Voltage Reference TVD D LOOE VDD18 DVSS AIN1P Delta-Sigma AIN1N Modulator Doomation Filter HPF Serisi Output DIF0 DIF1 BICK LRCK TDMIN SDTO1 DP TDM0 TDM1 ODP PSN ACKS0 CKS1 CKS2 CKS3 AVDD AVSS Controller PDN MCLK TEST SLOW SD PW2 PW1 PW0 MSN OVF HPFE I2C Thomn TESTO1 RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND RDND
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Circuit schematic diagram of a power supply and ADC/DSP module with labeled components and connections
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SWD CONNECTOR A B C D E F G H I J K 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 +3V3 +3V3 R112 R123 R134 R144 R154 R164 R174 R184 R194 R204 R214 R224 R234 R244 R254 R264 R274 R284 R294 R304 R314 R324 R334 R344 R354 R364 R374 R384 R394 R404 R414 R424 R434 R444 R454 R464 R474 R484 R494 R504 R514 R524 R534 R544 R554 R564 R574 R584 R594 R604 R614 R624 R634 R644 R654 R664 R674 R684 R694 R704 R714 R724 R734 R744 R754 R764 R774 R784 R794 R804 R814 R824 R834 R844 R854 R864 R874 R884 R894 R904 R914 R924 R934 R944 R954 R964 R974 R984 R994 PTE0 PTE1 PTD7 PTD6 PTD5 PTD4 PTD3 PTD2 PTD1 PTD0 PTD7 PTD6 PTD5 PTD4 PTD3 PTD2 PTD1 PTD0 PTD7 PTD6 PTD5 PTD4 PTD3 PTD2 PTD1 PTD0 PTD7 PTD6 PTD5 PTD4 PTD3 PTD2 PTD1 PTD0 PTD7 PTD6 PTD5 PTD4 PTD3 PTD2 PTD1 PTD0 PTD7 VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VPPVCCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCDCCCCCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCAGTTCACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACCGTACTCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCCAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTCAAATTAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAACGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTTGTCGTGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGGTGTCGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGC TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA T GA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA TGA T GTA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA TA A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CCTTCC CTTC CCTTCC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTTC CTIC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC TC SC TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG TTC TT TG AAC TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/ TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO/TO SAWDO / TO SAWDO / TO SAWDO / TO SAWDO / TO SAWDO / TO SAWDO / TO SAWDO / TO SAWDO / TO SAWDO / TO SAWDO / TO SAWDO / TO SAWDO / TO SAWDO / TO SAWDO / TO SAWDO / TO SAWDO / TO SAWDO / TO SAWDO / TO SAWDO / TO SAWDO / TO SAWDO / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOVOC / NOV OC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC / NOVC | 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 | + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - + - DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND DGNND BONDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONGDAO ONCNOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NOSO NCSNOSO NCSNOSO NCSNOSO NCSNOSO NCSNOSO NCSNOSO NCSNOSO NCSNOSO NCSNOSO NCSNOSO NCSNOSO NCSNOSO NCSNOSO NCSNOSO NCSNOSO NCSNOSO NCSNOSO NCSNOSO NCSNOSO NCSNOSO NCSNASSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSNOSCNSNOSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNSNTSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTUSSUSSTU'S USSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSSUSS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS USS uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uss uccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuusuccuus uccuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuucuufcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcinkdukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcukcuk c k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k l n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n t p r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t r s t t o p e x y y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z y z yz
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SWD CONNECTOR A SWEETR EBITDA IN CNTN LNC SWEETR EBITDA IN CNTN LNC SWEETR EBITDA IN CNTN LNC SWEETR EBITDA IN CNTN LNC SWEETR EBITDA IN CNTN LNC SWEETR EBITDA IN CNTN LNC SWEETR EBITDA IN CNTN LNC SWEETR EBITDA IN CNTN LNC B C D E F G H I J K 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 +3V3 -3V3 µC +3V3 M1/407 PCBN: M1/407 Mod: Fis:20M Marticulator.SchDoc Switch Gnd Mode R Mode G Mode R Q9 Q13 Q11 C11 C10 C9 C8 C7 C6 C5 C4 C3 C2 C1 C0 U3 LPGN4 MKL15264VLH1 8173 PT07 PT06 PT05 PT04 PT03 PT02 PT01 PT00 PT99 PT98 PT97 PT96 PT95 PT94 PT93 PT92 PT91 PT90 PT89 PT88 PT87 PT86 PT85 PT84 PT83 PT82 PT81 PT80 PT79 PT78 PT77 PT76 PT75 PT74 PT73 PT72 PT71 PT70 PT69 PT68 PT67 PT66 PT65 PT64 PT63 PT62 PT61 PT60 PT59 PT58 PT57 PT56 PT55 PT54 PT53 PT52 PT51 PT50 PT49 PT48 PT47 PT46 PT45 PT44 PT43 PT42 PT41 PT40 PT39 PT38 PT37 PT36 PT35 PT34 PT33 PT32 PT31 PT30 PT29 PT28 PT27 PT26 PT25 PT24 PT23 PT22 PT21 PT20 PT19 PT18 PT17 PT16 PT15 PT14 PT13 PT12 PT11 PT10 PT99 PT98 PT97 PT96 PT95 PT94 PT93 PT92 PT91 PT90 PT89 PT88 PT87 PT86 PT85 PT84 PT83 PT82 PT81 PT80 PTE0 PTE1 PTE2 PTE3 PTE4 PTE5 PTE6 PTE7 PTE8 PTE9 PTE10 PTE11 PTE12 PTE13 PTE14 PTE15 PTE16 PTE17 PTE18 PTE19 PTE20 PTE21 PTE22 PTE23 PTE24 PTE25 PTE26 PTE27 PTE28 PTE29 PTE20 PTP21 PTP22 PTP23 PTP24 PTP25 PTP26 PTP27 PTP28 PTP29 PTP30 PTP31 PTP32 PTP33 PTP34 PTP35 PTP36 PTP37 PTP38 PTP39 PTP40 PTP41 PTP42 PTP43 PTP44 PTP45 PTP46 PTP47 PTP48 PTP49 PTP50 PTP51 PTP52 PTP53 PTP54 PTP55 PTP56 PTP57 PTP58 PTP59 PTP60 PTP61 PTP62 PTP63 PTP64 PTP65 PTP66 PTP67 PTP68 PTP69 PTP70 PTP71 PTP72 PTP73 PTP74 PTP75 PTP76 PTP77 PTP78 PTP79 PTP80 PTP81 PTP82 PTP83 PTP84 PTP85 PTP86 PTP87 PTP88 PTP89 PTP90 PTP91 PTP92 PTP93 PTP94 PTP95 PTP96 PTP97 PTP98 PTP99 PTP100 VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDDD
other
Low Energy Bluetooth | Pin | Pin Name | Pin Label | Pin Description | |---|---|---|---| | U1 | +3V3 | BLE | +3V3 | | P0.4 | 21 | P0.6 | +3V3 | | P0.6 | 24 | P0.7 | +3V3 | | P0.7 | 23 | P0.5 | +3V3 | | P0.5 | 22 | P0.7 | +3V3 | | P1.0 | 20 | P1.4 | +3V3 | | P1.4 | 19 | P1.5 | +3V3 | | P1.5 | 18 | W12R | +3V3 | | P1.6 | 17 | 47R 0055 | +3V3 | | P1.7 | 16 | XRES | +3V3 | | P3.2 | 8 | CYBLE-012011-00 6793 | +3V3 | | P3.3 | 7 | CYBLE-012011-00 6793 | +3V3 | | P3.4 | 6 | CYBLE-012011-00 6793 | +3V3 | | P3.5 | 5 | CYBLE-012011-00 6793 | +3V3 | | P3.6 | 4 | CYBLE-012011-00 6793 | +3V3 | | P3.7 | 3 | CYBLE-012011-00 6793 | +3V3 | | P4.0 | 2 | CYBLE-012011-00 6793 | +3V3 | | P5.0 | 30 | CYBLE-012011-00 6793 | +3V3 | | P5.1 | 31 | CYBLE-012011-00 6793 | +3V3 | | P2.0 | 14 | CYBLE-012011-00 6793 | +3V3 | | P2.2 | 13 | CYBLE-012011-00 6793 | +3V3 | | P2.3 | 12 | CYBLE-012011-00 6793 | +3V3 | | P2.4 | 11 | CYBLE-012011-00 6793 | +3V3 | | P2.6 | 9 | CYBLE-012011-00 6793 | +3V3 | | GND | 28 | GND | +3V3 | | GND | 27 | GND | +3V3 | | GND | 26 | GND | +3V3 | | GND | 25 | GND | +3V3 | | VDD | 15 | VDD | +3V3 | | VDDR | 29 | VDDR | +3V3 | | VREF | 10 | VREF | +3V3 | | C4 (6C) | 28 (6C) | C4 (6C) | +3V3 | | C3 (6C) | 28 (6C) | C3 (6C) | +3V3 | | C2 (6C) | 25 (6C) | C2 (6C) | +3V3 | | C1 (6C) | 25 (6C) | C1 (6C) | +3V3 | | L1 (L) = 600R, F:0.5 = +3V3, +3V3, -+3V3, -+3V3, -+3V3, -+3V3, -+3V3, -+3V3, -+3V3, -+3V3, -+3V3, -+3V3, -+3V3, -+3V3, -+3V3, -+3V3, -+3V3, -+3V3, -+3V3 | Section: Low Energy Bluetooth Product(s): EF10P-EF12P-EF15P M1497 6 11 V01 EML Rev#: 01 Sheet OfPCB#: Rev#: Tmp Rev: V031 Modified: File:2 BL#E#Doc
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8 HORN PRE AND 8 7 HORN PRE OUT 7 6 WOOFER PRE ONDE 5 WOOFER PRE OUT 5 4 CCDC 4 3 Pn-24v 3 2 I3V 2 1 -19V 1 WB WE WE
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U15 IN REF 7016 LM1117-5v 2.0V-2.5V -15V 5 C102 +3V DGND DAC_LRCLK DAC_BCLK DAC_DATA H154 M148 1.9V 2.0V DGND RESET_DAC SPI_MISO SPI_MOSI SPI_CLK SS_DAC R165 1.9V 2.0V DGND SPI_MISO SPI_MOSI SPI_CLK SS_DAC R164 M148 1.9V 2.0V DGND LICK RCK DATA FST MDO MDI MC MS MSEL ZEROL ZEROR MCLK +3V DCND +15V 4 U15 8:22 PCM1796 300V-2.5V VCCML VCOMR VCCI VCC2L AGN3SL KOUTL- ICOUTL- IOUTR- ICUTR+ AGN3SR VCC2R +3V3 DAC +1.0 VCCR DGND +3V3 DAC +1.0 VCCR DGNDHORN OUTPUT
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20k rolloff IOUTL+ 6 U12.2 MC33075D 7068 5014 C113 R110 R190 IK80 IOUTL- 2 U*2.1 MC33075D 7668 5014 C117 R112 (70V) 50V AOS R118 (70V) AOS C119 R114 (70V) AOS R118 (70V) AOS C120 R118 (70V) AOS R118 (70V) AOS C125 (70V) AOS R122 (70V) AOS C125 (70V) AOS IOUTL- 2 U*2.1 MC33075D 7668 5014 C121 R129 (70V) IOUTL- 2 IOUTL- 20kV IOUTL- 20kV IOUTL- 20kV IOUTL- 20kV IOUTL- 20kV IOUTL- 20kV IOUTL- 20kV IOUTL- 20kVWOOFER OUTPUT
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Gain? I114 15V 50V R111 W263 1080 U12.5 MC3078D 7568 9 10 C118 10V 16V R113 4K75 1.0V C120 2.0V R115 300R0 6 U13:2 7 MC3078 78:7 C23 15V 50V I121 C223 10V 16V C124 10V 16V F118 A100 4K75 3.0V C125 300P 30V R123 10V 16V U12.4 MC3078D 7568 14 IOUTR- DCND Section: DAC Output Proteins: EF10P-EF12P-EF15P| Yorkville | Section: DAC Output | ||||
| Product(s): EF10P-EF12P-EF15P | |||||
| PCBA: M1497 | Rev: V01 | ENL Rev: C1 | Sheet 7 OF 11 | ||
| Modified: | File:20Output@SchDoc | Temp Rev: V03 | |||
| 12 | 13 | 14 | 15 | 16 | 17 |
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FINAL E CONNECTOR VOCED FOR WHITE SCE BLK/VEL BLACK BROWN ORANGE BLUE WHITE NA CE MUTE ON/OFF ALL DIODES S3D 200V 3A0 DIO D214 SMT PUT PADS UNDER HIGH CURRENT AND ALTERNATE 40-5E VDC-> 2.2kV MUD 2 6817 Q15 AMET2004 Faster/Power Load - 20mA max. TENOUT TENOUT OUT SPKR ACOOPOL OUT ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND TENOUT TENOUT OUT Spkr ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND Acneon Power Supply YORKVILLE CF10P-EF12P-EF16P M1427.6 L 1.5mA COWON 20mA ELIC BAN 121 R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA
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FINAL E CONNECTOR VOCED FOR WHITE SCE BLK/VEL BLACK BROWN ORANGE BLUE WHITE NA CE MUTE ON/OFF ALL DIODES S3D 200V 3A0 DIO D214 SMT PUT PADS UNDER HIGH CURRENT AND ALTERNATE 40-5E VDC-> 2.2kV MUD 2 6817 Q15 AMET2004 Faster/Power Load - 20mA max. TENOUT TENOUT OUT SPKR ACOOPOL OUT ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND TENOUT TENOUT OUT Spkr ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND ACOOPOL GND Acneon Power Supply YORKVILLE CF10P-EF12P-EF16P M1427.6 L 1.5mA COWON 20mA ELIC BAN 121 R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mA R/N N 1.5mAPCB ASSEMBLY DOCUMENTATION
SPECIAL PRODUCTION NOTES
- ADD RTV BETWEEN ALL TALL COMPONENTS AND AREAS WHERE INDICATED.
- BEND C51 TO BOARD AND APPLY RTV TO HOLD IT.
PCB HARDWARE
THIS SHEET CONTAINS SPECIAL PRODUCTION NOTES AND A LIST OF PCB HARDWARE PARTS REQUIRED FOR THE BUILD.
Assembly Documentation
025N E10P-EF12P-EF15P
N1402 9 1156w CYPON WHA EML P#A 01
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reg var. skill
DESIGN HISTORY AND INFORMATION
CHANGE HISTORY
| # | DATE | VER# | PC# | DESCRIPTION OF CHANGE |
| 1 | 03-MAR-2017 | V01 | RELEASED FOR PRODUCTION | |
| 2 | OCT-26-2017 | V01 | 9116 | MARKED W3 CONNECTOR - YS PART# 4018 AS DNS |
| 3 | NOV-14-2017 | V01 | CHANGE FUSE PART NUMBER FOR CE FROM 2475 TO 2473 (T1.6A) | |
| 4 | Oct-09-2019 | 9434 | Update labels on W6 and W7 connector print drawings. | |
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POTENTIOMETERS AND KNOBS
| POTENTIOMETERS AND KNOBS | |||
| REF | FUNCTION | POT# | KNOB# |
| P1 | MASTER LEVEL | 4462 | 8653 |
| P2 | LINE LEVEL | 4459 | 8655 |
| P3 | MIC LEVEL | 4459 | 8653 |
PINOUT DIAGRAMS
THIS SHEET CONTAINS A CHANGE HISTORY LOG, A LIST OF THE POTS & KNOBS AND A LEADS & PINS REFERENCE SECTION.
| Design Information And History | |||
| Name: EF10P-EF12P-EF15P | |||
| M1427 10 115N | M2008/DNA | EN PA 01 | |
| ENNA | EN 360000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 | EN PA 01 | EN PA 01 |
scatter
| Label | Description | Description | | :--- | :--- | :--- | | A | Model Name: PCB No. Rev EC100 | - | | B | Instrument | CNR2, PF3, PF4, PF1, PF2, TLH3, TLH4, TLH5 | | C | Component | INS1, CNR1, CNR4, CNR3 | | D | Component | CRG1 | | E | Component | PLASTICPIN | | F | Component | RTV_HOLES, ClassName: PLASTICPIN | | G | Component | BREAK, ClassName: BREAKHOLES | | H | Component | CHASSISSCREW, ClassName: CHASSISSCREW | | B | Documentation | Blank PCB, PCB1, AI Sub-Assembly, AI-ASSY1 | | Section: EF10P-EF12P-EF15P M1497 11 11 V01 EML Rev#: 01 Sheet OfPCB#: Rev#: Modified: File:20B90J809DOC Tmp Rev: V031 Yorkville
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BlankSize - 9100x8050 M1497 V01 EF10P-EF12P-EF15P 3 of 3 Wave Solder M1497 V01 EF10P-EF12P-EF15P 412V 6452 100N/250V 6452 1300UH 6452 100N/250V 6452 100N/250V 6452 100N/250V 6452 100N/250V 6452 100N/250V 6452 100N/250V 6452 100N/250V 6452 100O/1.1V 6452 100N/250V 6452 100N/250V 6452 100N/250V 6452 100N/250V 6452 100N/250V 6452 100N/250V 6452 10O/1.1V 6452 10O/2.1V 6452 10O/3.1V 6452 10O/4.1V 6452 10O/5.1V 6452 10O/6.1V 6452 10O/7.1V 6452 10O/8.1V 6452 10O/9.1V 6452 10O/10.1V 6452 10O/11.1V 6452 10O/12.1V 6452 10O/13.1V 6452 10O/14.1V 6452 10O/15.1V 6452 10O/16.1V 6452 10O/17.1V 6452 10O/18.1V 6452 10O/19.1V 6452 10O/20.1V 6452 10O/21.1V 6452 10O/22.1V 6452 10O/23.1V 6452 10O/24.1V 6452 10O/25.1V 6452 10O/26.1V 6452 10O/27.1V 6452 10O/28.1V 6452 10O/29.1V 6452 10O/30.1V 6452 10O/31.1V 6452 10O/32.1V 6452 10O/33.1V 6452 10O/34.1V 6452 10O/35.1V 6452 10O/36.1V 6452 10O/37.1V 6452 10O/38.1V 6452 10O/39.1V 6452 10O/40.1V 6452 10O/41.1V 6452 10O/42.1V 6452 10O/43.1V 6452 10O/44.1V 6452 10O/45.1V 6452 10O/46.1V 6452 10O/47.1V 6452 10O/48.1V 6452 10O/49.1V 6452 10O/50.1V 6452PCB ASSEMBLY DOCUMENTATION
SPECIAL PRODUCTION NOTES
- ADD RTV BETWEEN ALL TALL COMPONENTS AND AREAS WHERE INDICATED.
- BEND C51 TO BOARD AND APPLY RTV TO HOLD IT.
PCB HARDWARE
THIS SHEET CONTAINS SPECIAL PRODUCTION NOTES AND A LIST OF PCB HARDWARE PARTS REQUIRED FOR THE BUILD.
Assembly Documentation
EF10P-EF12P-EF15P
N427 915600000000000000000000000000000000
[Unreadable]
Irs var. c101
DESIGN HISTORY AND INFORMATION
CHANGE HISTORY
| # | DATE | VER# | PC# | DESCRIPTION OF CHANGE |
| 1 | 03-MAR-2017 | V01 | RELEASED FOR PRODUCTION | |
| 2 | OCT-26-2017 | V01 | 9116 | MARKED W3 CONNECTOR - Y5 PART# 4018 AS DNS |
| 3 | NOV-14-2017 | V01 | CHANGE FUSE PART NUMBER FOR CE FROM 2475 TO 2473 (T1.5A) | |
| 4 | Oct-09-2019 | 9434 | Update labels on WS and W7 connector pinout drawings. | |
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POTENTIOMETERS AND KNOBS
| POTENTIOMETERS AND KNOBS | |||
| REF | FUNCTION | POT# | KNOB# |
| P1 | MASTER LEVEL | 4462 | 8653 |
| P2 | LINE LEVEL | 4459 | 8655 |
| P3 | MIC LEVEL | 4459 | 8653 |
PINOUT DIAGRAMS
THIS SHEET CONTAINS A CHANGE HISTORY LOG, A LIST OF THE POTS & KNOBS AND A LEADS & PINS REFERENCE SECTION.
| Design Information And History | |||
| EF10P-EF12P-EF15P | |||
| N°437 10'15" | M°-HISTORY-CH | SIL R#A.21 | |
| R#N# | PH- | L#s R#A- L#C# | |
| Product(s): EF12_15_215P-PSA1-SA102_153 | ||||
| Description: Powered speaker cabinet | ||||
| PCB#: M1498 | Rev#: V05 | EML Rev#: 01 | Sheet 1 Of 5 | |
| Modified: 2020-02-03 | File: Top Sheet.SchDoc | Tmp Rev: V032 | ||
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200 WATT HORN POWER AMP HORN OUTPUT * NOTE: OUTPUT FILTER ON POWER SUPPLY PCB A B C D E F G I J K 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 MutoFols Q14 T005 C25 R120 R120 R120 R120 R120 R120 R120 R120 R120 R120 R120 R120 R120 R120 R120 R120 R120 R120 R120 R120 R125 U13.2 OPA1502 6851 C40 250V C40 Q17 B022 C68 120V C68 U13.3 Q17 C68 U13.3 Q17 C68 U13.3 Q17 C68 U13.3 Q17 C68 U13.3 Q17 C68 U13.3 Q17 C68 U13.3 Q17 C68 U13.3 Q17 D4 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V
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Electrical schematic diagram with labeled components including voltage sources, capacitors, transistors, and control circuits.| Yorkville | Sector: Woofer Amplifier/PS | |||
| FCA#s: EF12 15 215P-PSA1-SA102 153 | ||||
| FC#r: M149B | P##: VCC | FN: 2nd: 01 | Shet: 3 Of 5 | |
| WFC#e: 2023-02-05 | N###: WOOFER AMF/SCN EOC | Top: 1st: VCC | ||
DESIGN HISTORY AND INFORMATION
CHANGE HISTORY
| # | VER#D | ATB# | DESCRIPTION OF CHANGE | |
| 1 | OCT-4-2017 | V02 | RELEASED VERSION 2. | |
| 2 | APR-27-2018 | V03 | 9129 | MOVED R61_ST AWAY FROM 80V CONNECTOR PAD |
| 3 | Aug-08-2019 | V04 | 9449 | C12&C23 to 10U/25V Change VBE res to center trim pot. Add D4 to cut turn off noise. |
| 4 | FEB-03-2020 | V05 | 9508 | Added 1N cap and 47R resistor between gate and source of Q10 |
| 5 | NOV 04-2021 | 9660 | FOR DETAILS SEE PC49660 FOR M1501. | |
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POTENTIOMETERS AND KNOBS
PINOUT DIAGRAMS
THIS SHEET CONTAINS A CHANGE HISTORY LOG, A LIST OF THE POTS & KNOBS AND A LEADS & PINS REFERENCE SECTION.
| Design Information And History | |||||
| Pre-Knayr rations] | |||||
| NOSR | [No V] | Rev. 105 | 2M Rev. 01 | 5mm 4 OF 5 | |
| WolNet | 202-11-04 | 5kg Inventory Sun-Box | Top Ave: 1052 | ||
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WOOFER AMPLIFIER USE PLASTIC WASHER #8961 ON 4 CORNER MOUNTING NUTS AMP 1 of 1 M1498 V05 EF12/15/215P PSA1-SA102/153 V05 TEST Q3 R24 U1 R7 R27 C10 R18 R22 D11 R34 R41 R39 D14 R31 R23 R20 R26 D3 R25 D4 R42 R40 R14 C14 C9 R4 R38 Q6 EC5 Q5 C21 Q8 C3 D17 C1 D13 C1 C4 R5 D13 C1 R1 C16 HI- MUTE -80V_H -24V -44V LO+ 96KHZ HIOUT HIOUT LOOUT +44V +24V +80V_H HI+ -15V +24V LVGND +15V LO- -80V -80V WGND LOOUT LOOUT +80V +80V R61 3T R108 R97_3T D2 R58 R57 C32 Q22 ZD10 R59 Yorkville C 2016 R137 R140 ZD9 R36 Q9 D38 D37 D36 R139 R36 Q12 R134 R119 Q16 ZD1 Q21 Q10 Q13 D1 R56 D10 R54 ZD6 R63 ZD7 R19 R43 R6 R136 Q19 R55 R53 R63 C27 R43 R6 R136 Q20 R50 R60 R48 R46 TP1 Q11 R72 TP2 U13 C64 R17 R18 R45 R44 R61 R29 TEST R32 R17 R125 R130 R126 R66 P6 Q15 Q25 C26 HORN AMPLIFIER V05Design/ tors
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WOOFER AMPLIFIER USE PLASTIC WASHER #8961 ON 4 CORNER MOUNTING NUTS AMP 1 of 1 M1498 V05 EF12/15/215P PSA1-SA102/153 V05 TEST 1K OR 1K MC7615BDT 100N MC79M15CDT 100R 1KOUT0 1KOUT0 100N 100R LW39D 1M LM39D 1M 3K32 47K 200V 47P 100R 100R 150K 15KV 47P 91B 47P 200V 4N7 348R0 1K0 OR OR TL071 100N 100R 7X50 200V 250V 470P 2K74 47P 10U 10R 10U 47K 4R7 IRS20957S 10U 4R7 4R7 2U2 2U2 100N 2U2 IRFS4227PBF 4R7 EC5 2U2 2U2 100N 2U2 IRFS4227PBF 33K 47K HI- MUTE -30V_H -24V -44V LO+ 96KHZ HIOUT HIOUT LOOUT +44V +24V +80V_H HI- -15V +24V LVGND +15V LO- -80V -80V WGND LOOUT LOOUT +80V +80V +80V 0R0 1M ORO MURA240 MURA24M 10K 10K 450V 100N 10K 10K 15V6 MURA240 MURA240 16V6 IRF530NS 2SC4027 21R 2SC4027 22R 2SC4027 22R 2SC4027 22R 2SC4027 22R 2SC4027 22R 2SC4027 22R 2SC4027 22R 2SC4027 22R 2SC4027 22R 2SC4027 22V/ lues
PCB ASSEMBLY DOCUMENTATION
SPECIAL PRODUCTION NOTES
1-Place Connector (#7883) on all boards on panel BEFORE Rework Oven.
PCB HARDWARE
SCREWS AND BOLTS
THIS SHEET CONTAINS SPECIAL PRODUCTION NOTES AND A LIST OF PCB HARDWARE PARTS REQUIRED FOR THE BUILD.
DESIGN HISTORY AND INFORMATION
CHANGE HISTORY
| # | VER#D | ATB# | DESCRIPTION OF CHANGE | |
| 1 | OCT-4-2017 | V02 | RELEASED VERSION 2. | |
| 2 | APR-27-2018 | V03 | 9129 | MOVED R61_ST AWAY FROM 80V CONNECTOR PAD |
| 3 | Aug-08-2019 | V04 | 9449 | C12&C23 to 10U/25V Change VBE res to center trim pot. Add D4 to cut turn off noise. |
| 4 | FEB-03-2020 | V05 | 9508 | Added 1N cap and 47R resistor between gate and source of Q10 |
| 5 | NOV 04-2021 | 9660 | FOR DETAILS SEE PC49660 FOR M1501. | |
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POTENTIOMETERS AND KNOBS
PINOUT DIAGRAMS
THIS SHEET CONTAINS A CHANGE HISTORY LOG, A LIST OF THE POTS & KNOBS AND A LEADS & PINS REFERENCE SECTION.
| Design Information And History | |||||
| Pre-Knayr rations] | |||||
| NOSR | [No V] | Rev. 105 | 2M Rev. 01 | 5mm 4 OF 5 | |
| WolNet | 202-11-04 | 5kg Inventory Sun-Box | Top Ave: 1052 | ||
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3036 Cable 3044 Cable DCB2 Power-Satellite AIN_HI_SENS AIN_HI_PSPS AIN_LU_SENS AIN_TO_SPS OND LED LPG1 LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc
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3036 Cable 3044 Cable DCB2 Power-Satellite AIN_HI_SENS AIN_HI_PSPS AIN_LU_SENS AIN_TO_SPS OND LED LPG1 LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GND LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GN LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GG LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_GC LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc LED_Gc
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PreAmp MAIN INPUT THRU LIMIT INDICATOR CLIP INDICATOR LINE IN MIC MIXER ENABLE PreAmp Yorkville EF10P-EF12P-EF15P M-132.2 1.5V DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-DC-AC C1: C2: C3: C4: C5: C6: C7: C8: C9: C10: C11: C12: C13: C14: C15: C16: C17: C18: C19: C20: C21: C22: C23: C24: C25: C26: C27: C28: C29: C30: C31: C32: C33: C34: C35: C36: C37: C38: C39: C40: C41: C42: C43: C44: C45: C46: C47: C48: C49: C50: C51: C52: C53: C54: C55: C56: C57: C58: C59: C60: C61: C62: C63: C64: C65: C66: C67: C68: C69: C70: C71: C72: C73: C74: C75: C76: C77: C78: C79: C80: C81: C82: C83: C84: C85: C86: C87: C88: C89: C90: C91: C92: C93: C94: C95: C96: C97: C98: C99: C100: C11.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1. C20 C21 C22 C23 C24 C25 C26 C27 C28 C29 C30 C31 C32 C33 C34 C35 C36 C37 C38 C39 C40 C41 C42 C43 C44 C45 C46 C47 C48 C49 C50 C51 C52 C53 C54 C55 C56 C57 C58 C59 C60 C61 C62 C63 C64 C65 C66 C67 C68 C69 C70 C71 C72 C73 C74 C75 C76 C77 C78 C79 C80 C81 C82 C83 C84 C85 C86 C87 C88 C89 C90 C91 C92 C93 C94 C95 C96 C97 C98 C99 C100: U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U=U
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10u 10v X5R (is X6S) AD Ref C90 R186 4K75 C98 H184 W100 4K75 000 AIN HI SENS+ C137 +5Vref C138 TDMN U19 C135 U19 C133 U19 C134 U19 C137 +5Vref C138 TDMN U19 C137 +5Vref C138 TDMN U19 C138 +5Vref C139 TDMN U19 C139 +5Vref C139 TDMN U19 C139 +5Vref C139 TDMN U19 C139 +5Vref C139 TDMN U19 C139 +5Vref C139 TDMN U19 C139 +5Vref C79 C72 C73 C62 ADJ ADJ ADJ AIN_HI_SENS+ AIN_LO_SENS+ AIN_LO_SENS+ AIN_LO_SENS- AIN_HI_SENS- AIN_LO_SENS+ AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS- AIN_LO_SENS+ VREFH1 VREFH1 Voltage Reference TVDD LDOE VDD16 DVSS Serial Output AVDD AVSS DIF0 DIF1 BICK LRCK TDMIN SDTO1 DP TDM0 TDM1 ODP PSN CKS0 CKS1 CKS2 CKS3 DIF0 DIF1 BICK LRCK TDMIN SDTO1 DP TDM0 TDM1 ODP PSN CKS0 CKS1 CKS2 CKS3 L12 600R 3V3 BCLK LRCLK ADOUT DGND +3V3_AD Controller PDN MCLK TEST SLOW SD PW2 PW1 PN MSN OVF HPFE I2C Therm TESTO1 49 29 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 49 48.5 A/D Converter EF10P-EF12P-EF15P M1802 3 11 V01 EML Rev: Q1 Sheet OFPCBF: Rev#: Modified: File:2/2020-05-08Doc Temp Rev: V031 A Yorkville
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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 A B C D E F G H I J K 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN TEN C12 C13 C14 C15 C16 C17 C18 C19 C20 C21 C22 C23 C24 C25 C26 C27 C28 C29 C30 C31 C32 C33 C34 C35 C36 C37 C38 C39 C40 C41 C42 C43 C44 C45 C46 C47 C48 C49 C50 C51 C52 C53 C54 C55 C56 C57 C58 C59 C60 C61 C62 C63 C64 C65 C66 C67 C68 C69 C70 C71 C72 C73 C74 C75 C76 C77 C78 C79 C80 C81 C82 C83 C84 C85 C86 C87 C88 C89 C90 C91 C92 C93 C94 C95 C96 C97 C98 C99 C100 C101 C102 C103 C104 C105 C106 C107 C108 C109 C110 C111 C112 C113 C114 C115 C116 C117 C118 C119 C120 C121 C122 C123 C124 C125 C126 C127 C128 C129 C130 C131 C132 C133 C134 C135 C136 C137 C138 C139 C140 +3V3 DSP +3V3 DSP MCLK C6 TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN T-IN -3V3 DSP C6 TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN -3V3 DSP C6 TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN +3V3 DSP C6 TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN TIN +3V3 DSP C6 VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR VOUTR U2 ADAU-401 U2 ADAU-402 U2 ADAU-403 U2 ADAU-404 U2 ADAU-405 U2 ADAU-406 U2 ADAU-407 U2 ADAU-408 U2 ADAU-409 U2 ADAU-410 U2 ADAU-411 U2 ADAU-412 U2 ADAU-413 U2 ADAU-414 U2 ADAU-415 U2 ADAU-416 U2 ADAU-417 U2 ADAU-418 U2 ADAU-419 U2 ADAU-420 U2 ADAU-421 U2 ADAU-422 U2 ADAU-423 U2 ADAU-424 U2 ADAU-425 U2 ADAU-426 U2 ADAU-427 U2 ADAU-428 U2 ADAU-429 U2 ADAU-430 U2 ADAU-431 U2 ADAU-432 U2 ADAU-433 U2 ADAU-434 U2 ADAU-435 U2 ADAU-436 U2 ADAU-437 U2 ADAU-438 U2 ADAU-439 U2 ADAU-440 U2 ADAU-441 U2 ADAU-442 U2 ADAU-443 U2 ADAU-444 U2 ADAU-445 U2 ADAU-446 U2 ADAU-447 U2 ADAU-448 U2 ADAU-449 U2 ADAU-450 U2 ADAU-451 U2 ADAU-452 U2 ADAU-453 U2 ADAU-454 U2 ADAU-455 U2 ADAU-456 U2 ADAU-457 U2 ADAU-458 U2 ADAU-459 U2 ADAU-460 U2 ADAU-461 U2 ADAU-462 U2 ADAU-463 U2 ADAU-464 U2 ADAU-465 U2 ADAU-466 U2 ADAU-467 U2 ADAU-468 U2 ADAU-469 U2 ADAU-470 U2 ADAU-471 U2 ADAU-472 U2 ADAU-473 U2 ADAU-474 U2 ADAU-475 U2 ADAU-476 U2 ADAU-477 U2 ADAU-478 U2 ADAU-479 U2 ADAU-480 U2 ADAU-481 U2 ADAU-482 U2 ADAU-483 U2 ADAU-484 U2 ADAU-485 U2 ADAU-486 U2 ADAU-487 U2 ADAU-488 U2 ADAU-489 U2 ADAU-490 U2 ADAU-491 U2 ADAU-492 U2 ADAU-493 U2 ADAU-494 U2 ADAU-495 U2 ADAU-496 U2 ADAU-497 U2 ADAU-498 U2 ADAU-499 U2 ADAU-500 U2 ADAU-501 U2 ADAU-502 U2 ADAU-503 U2 ADAU-504 U2 ADAU-505 U2 ADAU-506 U2 ADAU-507 U2 ADAU-508 U2 ADAU-509 U2 ADAU-510 U2 ADAU-511 U2 ADAU-512 U2 ADAU-513 U2 ADAU-514 U2 ADAU-515 U2 ADAU-516 U2 ADAU-517 U2 ADAU-518 U2 ADAU-519 U2 ADAU-520 U2 ADAU-521 U2 ADAU-522 U2 ADAU-523 U2 ADAU-524 U2 ADAU-525 U2 ADAU-526 U2 ADAU-5
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SWD CONNECTOR A B C D E F G H I J K 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 P03 VCC R00 DO NO/NC VDD VREFH C52 4499 P132 VREFL C53 4499 P12 VREFL C54 4499 P132 VREFL C55 4499 P132 VREFL C56 4499 P132 VREFL C57 4499 P132 VREFL C58 4499 P132 VREFL C59 4499 P132 VREFL C60 4499 P132 VREFL C61 4499 P132 VREFL C62 4499 P132 VREFL C63 4499 P132 VREFL C64 4499 P132 VREFL C65 4499 P132 VREFL C66 4499 P132 VREFL C67 4499 P132 VREFL C68 4499 P132 VREFL C69 4499 P132 VREFL C70 4499 P132 VREFL C71 4499 P132 VREFL C72 4499 P132 VREFL C73 4499 P132 VREFL C74 4499 P132 VREFL C75 4499 P132 VREFL C76 4499 P132 VREFL C77 4499 P132 VREFL C78 4499 P132 VREFL C79 4499 P132 VREFL C80 4499 P132 VREFL C81 4499 P132 VREFL C82 4499 P132 VREFL C83 4499 P132 VREFL C84 4499 P132 VREFL C85 4499 P132 VREFL C86 4499 P132 VREFL C87 4499 P132 VREFL C88 4499| 10-Pin Cortex Debug Connector | 6-Pin TC2030 Footprint | |
| 1 VCC | 2 SWOIO / TMS | 1 VCC |
| 3 GND | 4 SWCLK / TCK | 2 SWOIO / TMS |
| 5 GND | 6 SWO / TDO | 3 mRESET |
| 7 NC / RTCK | 8 NC / TDI | 4 SWCLK / TCK |
| 9 GNDDetect | 10 mRESET | 5 GND (also connected to GNDDetect) |
| 6 SWO / TDO | ||
| Yorkville | Section: Microcontroller | ||||
| Product#: EF10P-EF12P-EF15P | |||||
| PCBA: M1802 | Rev: V31 | ENL Rev: 01 | Sheet 5 Of 11 | ||
| Modficar: | File:2020-6-6-0@roller.SchDoc | Tmp Rev: V31 | |||
| 12 | 13 | 14 | 15 | 16 | 17 |
other
Low Energy Bluetooth | Component | Power (V) | | :--- | :--- | | U1 | 8 | | P0.4 | 7 | | P0.6 | 6 | | P0.7 | 5 | | P0.5 | 4 | | P1.0 | 3 | | P1.4 | 2 | | P1.5 | 30 | | P1.6 | 31 | | P1.7 | 14 | | P2.0 | 13 | | P2.2 | 12 | | P2.3 | 11 | | P2.4 | 9 | | P2.6 | 8 | | Label | Description | | :--- | Description | | :--- | Description | | W1 | +3V3 BLE | | VCC | +3V3 BLE | | DIO | +3V3 BLE | | RST | +3V3 BLE | | CLK | +3V3 BLE | | GND | +3V3 BLE | | SWO | +3V3 BLE | | BT_Pgm | +3V3 BLE | | Label | Description | | :--- | Description | | P0.4 | 8 | | P0.6 | 7 | | P0.7 | 6 | | P0.5 | 5 | | P1.0 | 4 | | P1.4 | 3 | | P1.5 | 2 | | P1.6 | 30 | | P1.7 | 14 | | P2.0 | 13 | | P2.2 | 12 | | P2.3 | 11 | | P2.4 | 9 | | Label | Description | | :--- | Description | | C4 | +3V3 BLE | | C3 | +3V3 BLE | | C2 | +3V3 BLE | | C1 | +3V3 BLE | | Label | Description | | :--- | Description | | F:005 | +3V3 BLE | | L1 | +3V3 BLE | | +3V3 BLE | +3V3 BLE | | Label | Description | | :--- | Description | | YDIDUAR RX | +3V3 BLE | | YDIDUAR TX | +3V3 BLE | | ZBLE_RESET | +3V3 BLE | | Label | Description | | :--- | Description | | YDIDUAR RX (R1) | +3V3 BLE (W125) | | YDIDUAR TX (R1) (W125) | +3V3 BLE (W125) | | ZBLE_RESET (R1) (R1) (W125) | +3V3 BLE (W125) | | Label | Description | | :--- | Description | | YDIDUAR RX (P0.6) | +3V3 BLE (N8) | | YDIDUAR TX (P0.6) | +3V3 BLE (N8) | | ZBLE_RESET (P0.7) | +3V3 BLE (N9) | | Label | Description | | :--- | Description | | YDIDUAR RX (P0.7) | +3V3 BLE (N10) | | Label | Description | | :--- | Description | | YDIDUAR TX (P0.7) | +3V3 BLE (N10) | | Label | Description | | :--- | Description | | YDIDUAR RX (P0.6) | +3V3 BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR TX (P0.6) | +3V3 BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR RX (P0.7) | +3V3 BLE (N9) | | Label | Description | | :--- | Description | | YDIDUAR TX (P0.7) | +3V3 BLE (N9) | | Label | Description | | :--- | Description | | YDIDUAR RX (P0.6) | +3V3 BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR TX (P0.6) | +3V3 BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR RX (P0.7) | +3T BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR TX (P0.7) | +3T BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR RX (P0.6) | +3T BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR TX (P0.6) | +3T BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR RX (P0.7) | +3T BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR TX (P0.7) | +3T BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR RX (P0.6) | -+3T BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR TX (P0.6) | -+3T BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR RX (P0.7) | -+3T BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR TX (P0.7) | -+3T BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR RX (P0.6) | -+3T BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR TX (P0.6) | -+3T BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR RX (P0,7) | -+3T BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR TX (P0,7) | -+3T BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR RX (P0,7) | -+3T BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR TX (P0,7) | -+3T BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR PX (P0,7) | -+3T BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR TX (P0,7) | -+3T BLE (N8) | | Label | Description | | :--- | Description | | YDIDUAR PX (P0,7) | -+3T BLE (N8) | | Label | Description | | :--- | Description | | Yellowing Pin 1: +3V3 BLE; Blue LED; Red LED; Green LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue LED; Blue Ped/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor / Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistor/Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Resistors / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retriels / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retriats / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrial / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / Retrials / RetriALS YDIDUAR PX (P0,7) [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [-+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+2V4B] YDIDUAR PX (P0,7) [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+3V3 BLE] [+2V4B] YDIDUAR PX (P0,7) [+2V4B BLE] [+2V4B BLE] [+2V4B BLE] [+2V4B BLE] [+2V4B BLE] [+2V4B BLE] [+2V4B BLE] [+2V4B BLE] [+2V4B BLE] YDIDUAR PX (P0,7) [+2V4B BLE] [+2V4B BLE] [+2V4B BLE] [+2V4B BLE] [+2V4B BLE] [+2V4B BLE] [+2V4B BLE] YDIDUAR PX (P0,7) [+2V4B BLE] [+2V4B BLE] [+2V4B BLE] [+2V4B BLE]
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8 HORN PRE AND 7 7 HORN PRE OUT 7 8 WOOFER PRE AND 6 5 WOOFER PRE OUT 5 4 DASIN 4 3 2x24x 3 2 IINV 2 1 -18y 1 WB WB
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U15 IN REF OUT 7918 LM1117-5v 2.0V-2.25 L15V N12 C102 R165 10kΩ DGND DAC_1_RCLK DAC_BCLK DAC_DATA I104 VDD 10kΩ DGND RESET_DAC SPI_MISO SPI_MOSI SPI_CLK SS_DAC R164 VDD 4.3V 2.2V 14 RST MDD MDI MC MS MSEL ZERCL ZERROR 1 2 3 4 LICK RCK DATA RST MDD MDI MC MS MSEL 2.2V DCND MCLK +3V3 DAC L10 DCND +3V3_DAC 1.0V DCND +3V3_LC +3V3_C109 +3V3_DND +3V3_DVD +3V3_PDM170000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 U16 8:22 PCM1796 55Ω-2.5V VCC1 VCC2A- ACNDSL ICUTL- ICUTL+ ICUTR- ICUTR+ AGND3R VCC2R C168 C169 C170 C171 C172 C173 C174 C175 C176 C177 C178 C179 C180 C181 C182 C183 C184 C185 C186 C187 C188 C189 C190 C191 C192 C193 C194 C195 C196 C197 C198 C199 C200 C201 C202 C203 C204 C205 C206 C207 C208 C209 C210 C211 C212 C213 C214 C215 C216 C217 C218 C219 C220 C221 C222 C223 C224 C225 C226 C227 C228 C229 C230HORN OUTPUT
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20k rolloff C113 1N1 50V R110 1N10 1N10 1N10 U12.2 MC33079D 7668 6 5 + - IOUTL+ U12.2 7 50V C117 150V 50V C117 50V R112 (70V) R112 (70V) C119 150V 50V C119 50V R114 20X10 U13.1 MC33078 7817 - + - IOUTL- U12.1 7668 6 50V C122 150V 50V C122 150V 50V R118 20X40 U13.1 MC33078 7817 - + - IOUTL- U12.1 7668 6 50V C125 680V 50V R122 20X40 U13.1 MC33078 7817 - + - IOUTL- U12.1 7668 6 50VWOOFER OUTPUT
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C114 15V 50V R11 U12.5 MC300780 7568 8 10 C118 10V 10V R113 W070 4K/75 C120 R115 W074 200R0 6 L13:2 MC30079 78:17 6 C123 15V 50V R121 U12.4 MC300780 7568 8 10 C124 10V 10V R118 A100 4K/75 C125 W074 200R0 6 R123 U12.4 MC300780 7568 8 12 C126 W074 200V 6 R123 U12.4 MC300780 7568 8 12 DND Section: DAC Output Output: E510P.EE12P.EE15P| Yorkville | Section: DAC Output | ||||
| Product(s): EF10P-EF12P-EF15P | |||||
| PCB4: M1802 | Rev: V01 | ENL Rev: 01 | Sheet 7 Of 11 | ||
| Modification: | File:2/2026G-SSEDoc | Tmp Rev: V001 | |||
| 12 | 13 | 14 | 15 | 16 | 17 |
DESIGN HISTORY AND INFORMATION
CHANGE HISTORY
| # | DATE | VER# | PC# | DESCRIPTION OF CHANGE |
| 1 | 2017/03/03 | V01 | RELEASED FOR PRODUCTION | |
| 2 | 2017/09/15 | V01 | 9116 | MARKED W3 CONNECTOR - VS PART# 4016 AS DNS |
| 3 | 2017/11/14 | V01 | CHANGE FUSE PART NUMBER FOR CE FROM 2475 TO 2473 (T1.8A) | |
| 4 | 2017/10/03 | V02p1 | 9098 | Change RCA to 1/8', Move motor switch to make room for Master pot contor mark |
| 5 | 2018-02-24 | V01P0 | BOARD BLANK AND PROJECT RENAMED P8002. SECTIONS NAMED M1802 (INPUT),M1803 (POWER SUPPLY) AND M1804 (AC FILTER) | |
| 6 | ||||
| 7 | Added a 0.4A fuse in series with 15v supply track followedby a 20V 3W zonor to ground to protect if 80v shorts to ~15v. | |||
| 8 | ||||
| 9 | 2018-04-20 | V01P1 | Part additions for safety and value modifications to reduce parts count. | |
| 10 | 2018-09-10 | Unpanolized P8802 into M1802, M1803, and M1804 | ||
| 11 | 2018-10-12 | V01 | Released M1802V01 | |
| 12 | 2019-02-19 | 9333 | Chanc pots P1, P2 (10K, #4434), and P3 (10K, #4432) to YS #4459 (10K) | |
| 13 | 2019-10-08 | 9434 | Update labels on WS and W7 connector pincut drawings. |
| # | DATE | VER# | PCA | DESCRIPTION OF CHANGE |
| 1 | 2019-10-08 | 9445 | Remove R125, R131, R133 in LD2 drive circuit | |
| 2 | 2023-03-09 | 9607 | #7619 10U/10V replaced with #7738 10U/16V Cheaper / Better option.. | |
| 3 | C21,C57,C104,C105,C107,C109,C112. | |||
| 4 | ||||
| 5 | ||||
| 6 | ||||
| 7 | ||||
| 8 | ||||
| 9 | ||||
| 10 | ||||
| 11 | ||||
| 12 | ||||
| 13 |
| # | DATE | VER# | PC# | DESCRIPTION OF CHANGE |
| 1 | ||||
| 2 | ||||
| 3 | ||||
| 4 | ||||
| 5 | ||||
| 6 | ||||
| 7 | ||||
| 8 | ||||
| 9 | ||||
| 10 | ||||
| 11 | ||||
| 12 | ||||
| 13 |
POTENTIOMETERS AND KNOBS
| POTENTIOMETERS AND KNOBS | |||
| REF | FUNCTION | POTJ | KNOBJ |
| P1 | MASTER LEVEL | 4434 | 8653 |
| P2 | LINE LEVEL | 4432 | 8653 |
| P3 | MIC LEVEL | 4432 | 8653 |
81Y F 40
PINOUT DIAGRAMS
THIS SHEET CONTAINS A CHANGE HISTORY LOG, A LIST OF THE POTS & KNOBS AND A LEADS & PINS REFERENCE SECTION.
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S/N LABEL Yorkville 2018 MIXIC Master BlueTooth 4218 3696 3439 Sub 3522 4090 4140 DNS 4090 4010 MAIN INPUT THRU LINE IN 4218 4090 4140 ATTENTION ELECTRUSTAINCE SERVING DEVICE INF10P-EF12P-EF15P MI802V01 Input Processing MIC IN RD64 C748 C73U C33U D27 D26 D25 D24 D23 D22 D21 D20 D19 D18 D17 D16 D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0 D9 D8 D6 D5 D4 D3 D2 D1 D0 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0 D9 D8 D7 D6 D5 D4PCB ASSEMBLY DOCUMENTATION
SPECIAL PRODUCTION NOTES
The input section needs to be air tight. All Vias and Part Holes must be filled with solder.
PCB HARDWARE
SOREWS AND BOLTS
NUTS
STANDOFFS
MISCELLANEOUS
THIS SHEET CONTAINS SPECIAL PRODUCTION NOTES AND A LIST OF PCB HARDWARE PARTS REQUIRED FOR THE BUILD.
Assembly Documentation
0819Y EF10P-EF12P-EF15P
N 2022.9.1.5nd CYPSE TPR
[Unreadable]
1
17
DESIGN HISTORY AND INFORMATION
CHANGE HISTORY
| # | DATE | VER# | PC# | DESCRIPTION OF CHANGE |
| 1 | 2017/03/03 | V01 | RELEASED FOR PRODUCTION | |
| 2 | 2017/09/15 | V01 | 9116 | MARKED W3 CONNECTOR - VS PART# 4016 AS DNS |
| 3 | 2017/11/14 | V01 | CHANGE FUSE PART NUMBER FOR CE FROM 2475 TO 2473 (T1.8A) | |
| 4 | 2017/10/03 | V02p1 | 9098 | Change RCA to 1/8', Move motor switch to make room for Master pot contor mark |
| 5 | 2018-02-24 | V01P0 | BOARD BLANK AND PROJECT RENAMED P8002. SECTIONS NAMED M1802 (INPUT),M1803 (POWER SUPPLY) AND M1804 (AC FILTER) | |
| 6 | ||||
| 7 | Added a 0.4A fuse in series with 15v supply track followedby a 20V 3W zonor to ground to protect if 80v shorts to ~15v. | |||
| 8 | ||||
| 9 | 2018-04-20 | V01P1 | Part additions for safety and value modifications to reduce parts count. | |
| 10 | 2018-09-10 | Unpanolized P8802 into M1802, M1803, and M1804 | ||
| 11 | 2018-10-12 | V01 | Released M1802V01 | |
| 12 | 2019-02-19 | 9333 | Chanc pots P1, P2 (10K, #4434), and P3 (10K, #4432) to YS #4459 (10K) | |
| 13 | 2019-10-08 | 9434 | Update labels on WS and W7 connector pincut drawings. |
| # | DATE | VER# | PCA | DESCRIPTION OF CHANGE |
| 1 | 2019-10-08 | 9445 | Remove R125, R131, R133 in LD2 drive circuit | |
| 2 | 2023-03-09 | 9607 | #7619 10U/10V replaced with #7738 10U/16V Cheaper / Better option.. | |
| 3 | C21,C57,C104,C105,C107,C109,C112. | |||
| 4 | ||||
| 5 | ||||
| 6 | ||||
| 7 | ||||
| 8 | ||||
| 9 | ||||
| 10 | ||||
| 11 | ||||
| 12 | ||||
| 13 |
| # | DATE | VER# | PC# | DESCRIPTION OF CHANGE |
| 1 | ||||
| 2 | ||||
| 3 | ||||
| 4 | ||||
| 5 | ||||
| 6 | ||||
| 7 | ||||
| 8 | ||||
| 9 | ||||
| 10 | ||||
| 11 | ||||
| 12 | ||||
| 13 |
POTENTIOMETERS AND KNOBS
| POTENTIOMETERS AND KNOBS | |||
| REF | FUNCTION | POTJ | KNOBJ |
| P1 | MASTER LEVEL | 4434 | 8653 |
| P2 | LINE LEVEL | 4432 | 8653 |
| P3 | MIC LEVEL | 4432 | 8653 |
81Y F 40
PINOUT DIAGRAMS
THIS SHEET CONTAINS A CHANGE HISTORY LOG, A LIST OF THE POTS & KNOBS AND A LEADS & PINS REFERENCE SECTION.
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W7 1 W7 2 W7 3 W7 4 W7 5 W7 6 W7 7 W7 8 W7 9 W7 10 W7 11 W7 12 W7 13 W7 14 W7 15 W7 16 W7 17 W7 18 W7 19 W7 20 W7 21 W7 22 W7 23 W7 24 W7 25 W7 26 W7 27 W7 28 W7 29 W7 30 W7 31 W7 32 W7 33 W7 34 W7 35 W7 36 W7 37 W7 38 W7 39 W7 40 W7 41 W7 42 W7 43 W7 44 W7 45 W7 46 W7 47 W7 48 W7 49 W7 50 W7 51 W7 52 W7 53 W7 54 W7 55 W7 56 W7 57 W7 58 W7 59 W7 60 W7 61 W7 62 W7 63 W7 64 W7 65 W7 66 W7 67 W7 68 W7 69 W7 70 W7 71 W7 72 W7 73 W7 74 W7 75 W7 76 W7 77 W7 78 W7 79 W7 80 W7 81 W7 82 W7 83 W7 84 W7 85 W7 86 W7 87 W7 88 W7 89 W7 90 W7 91 W7 92 W7 93 W7 94 W7 95 W7 96 W7 97 W7 98 W7 99 W80000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000
| Yorkville | Yorkville & Sound Ltd.900 Grantry CourtPulming, OHConstance, 140, 150Ward your sell in now | AFM-ML EF10P-EF12P-EF15P | |||
| PS and Ins/Desc/Ins | |||||
| PCR N1369 | PAV VCL | EFLNrl-01 | Stud I Of IT | ||
| Aurfaa Dsg-11-17 | Top Sheet ConDisc | Tera Fm V108 | |||
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Model Transformer EF15P CH1341U EF12P CH1441U EF10P CH1342U FEMALE CONNECTOR MODE FROM MUTE SIDE BLACK BROWN ORANGE BLUE WHITE MUTE ON/OFF ALL DIODES S3D 200V 3A0 DIO D214 SMT PUT PADS UNDER HIGH CURRENT AND ALTERNATE CRITICAL SAFETY COMPONENTS. THIS SYMBOL IS PLACED ADJACENT TO SAFETY CRITICAL COMPONENTS. OFF-55 VDC-> 44V F20V 10kA 10kA 10kA 10kA 4D-55 VDC-> 14V F20V 10kA 10kA 10kA 10kA WOCFER- New/NC LED/REF OUT- DGND LED/REF OUT- CLOVE PRE OFF- LED/REF OUT- CLOVE PRE OFF- LED/REF OUT- LED/REF OUT- LED/REF OUT- LED/REF OUT- LED/REF OUT- LED/REF OUT- LED/REF OUT- LED/REF OUT- LED/REF OUT- LED/REF OUT- LED/REF OUT- LED/REF OUT- LED/REF OUT- LED/REF OUT- LED/REF OUT- LED/REF OUT- LED/REF OUT- LED/REF OUT- LED/REF OUT- LED/REF OUT- LED/REFOUT LED/REFOUT LED/REFOUT LED/REFOUT LED/REFOUT LED/REFOUT LED/REFOUT LED/REFOUT LED/REFOUT LED/REFOUT LED/REFOUT LED/REFOUT LED/REFOUT LED/REFOUT LED/REFOUT LED/REFOUT LED/REFOUT LED/REFOUT LED/REFOUT LED/REFOUT LED/REFOUTDESIGN HISTORY AND INFORMATION
CHANGE HISTORY
| # | DATE | VER# | PCI# | DESCRIPTION OF CHANGE |
| 1 | 2017/03/03 | V01 R | RELEASED FOR PRODUCTION | |
| 2 | 2017/09/15 | V01 | 9116 | MARKED W3 CONNECTOR - YS PART# 4018 AS DNS |
| 3 | 2017/11/14 | V01 | - | CHANGE FUSE PART NUMBER FOR CE FROM 2475 TO 2473 (T1.5A) |
| 4 | 2018-10-12 | V01 | - | Released M1803V01 |
| 5 | - | 9390 | Schematic error fixed | |
| 6 | ||||
| 7 | ||||
| 8 | ||||
| 9 | ||||
| 10 | ||||
| 11 | ||||
| 12 | ||||
| 13 |
| # | DATE | VER# | PC# | DESCRIPTION OF CHANGE |
| 1 | .. | |||
| 2 | .. | |||
| 3 | .. | |||
| 4 | .. | |||
| 5 | .. | |||
| 6 | .. | |||
| 7 | .. | |||
| 8 | .. | |||
| 9 | .. | |||
| 10 | .. | |||
| 11 | .. | |||
| 12 | .. | |||
| 13 | .. |
POTENTIOMETERS AND KNOBS
| POTENTIOMETERS AND KNOBS | |||
| REF | FUNCTION | POT# | KNOB# |
PINOUT DIAGRAMS
THIS SHEET CONTAINS A CHANGE HISTORY LOG, A LIST OF THE POTS & KNOBS AND A LEADS & PINS REFERENCE SECTION.
| Yorkville | Design Information And History | |||
| Product: EF10P-EF12P-EF15P | ||||
| 201406-11&10C008/Bnd. | EMLand-01 | Tres Fw: 2004 | ||
| Product: 2021-11-17 | Fw: History/SchDoc | |||
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Spkr WOOF- WORF+ HORN- HORN+ C153 150P C152 L11 C151 486uH L7 6562 192UH C53 10U 5190 Q6 HC7 R145 R246 17K8 R243 64K9 R241 R242 64K9 R146 17K8 20K5 R248 R249 R244 17K8 R245 10R R227 22R R45 -15V -24V -44V -15V -1.5V LO- -88V -88V +58V +58V +88V S3D 4.7UH W7 W6 HI- MUTE D2 C45 D1 F1 D5 H32B 2492 0A4 W6 2327 2328 5910 4700U 100V C40 C30 C20 C10 C00 C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0O 5910 4700U 100V C41 C30 C20 C10 C00 C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0V C0O 5860 3300U 35V TP2 AmpBias Adjust 1.5mV TP1 AmpBias Adjust 1.5mV TP2 AmpBias Adjust 1.5mV TP2 AmpBias Adjust 1.5mV TP2 AmpBias Adjust 1.5mV TP2 AmpBias Adjust 1.5mV TP2 AmpBias Adjust 1.5mV TP2 AmpBias Adjust 1.5mV TP2 AmpBias Adjust 1.5mV TP2 AmpBias Adjust 1.5mV TP2 AmpBias Adjusted 1.5mV (Attach Ring Term Here.) TP2 AmpBias Adjusted 1.5mV (Attach Ring Term Here.) TP2 AmpBias Adjusted 1.5mV (Attach Ring Term Here.) TP2 AmpBias Adjusted 1.5mV (Attach Ring Term Here.) TP2 AmpBias Adjusted 1.5mV (Attach Ring Term Here.) TP2 AmpBias Adjusted 1.5mV (Attach Ring Term Here.) TP2 AmpBias Adjusted 1.3mV (Attach Ring Term Here.) TP2 AmpBias Adjusted 1.3mV (Attach Ring Term Here.) TP2 AmpBias Adjusted 1.3mV (Attach Ring Term Here.) TP2 AmpBias Adjusted 1.3mV (Attach Ring Term Here.) TP2 AmpBias Adjusted 1.3mV (Attach Ring Term Here.) TP2 AmpBias Adjusted 1.3mV (Attach Ring Term Here.) TP4 AMP Bias Adjusted 1.3mV (Attach Ring Term Here.) TP4 Amp Bias Adjusted 1.3mV (Attach Ring Term Here.) TP4 Amp Bias Adjusted 1.3mV (Attach Ring Term Here.) TP4 Amp Bias Adjusted 1.3mV (Attach Ring Term Here.) TP4 Amp Bias Adjusted 1.3mV (Attach Ring Term Here.) TP4 Amp Bias Adjusted 1.3mV (Attach Ring Term Here.) TP4 Amp Bias Adjusted 1.3mV(Attach Ring Term Here.) TP4 Amp Bias Adjusted 1.3mV(Attach Ring Term Here.) TP4 Amp Bias Adjusted 1.3mV(Attach Ring Term Here.) TP4 Amp Bias Adjusted 1.3mV(Attach Ring Term Here.) TP4 Amp Bias Adjusted 1.3mV(Attach Ring Term Here.) TP4 Amp Bias Adjusted 1.3mV(Attach Ring Term Here.) TP4 Amp Bias Adjustment 1.3mV(Attach Ring Term Here) TP4 Amp Bias Adjustment 1.3mV(Attach Ring Term Here) TP4 Amp Bias Adjustment 1.3mV(Attach Ring Term Here) TP4 Amp Bias Adjustment 1.3mV(Attach Ring Term Here) TP4 Amp Bias Adjustment 1.3mV(Attach Ring Term Here) TP4 Amp Bias Adjustment 1.3mV(Attach Ring Term Here) TP4 Amp Bias Adjustment 1.3mV(Attach Ring Team) TP4 Amp Bias Adjustment 1.3mV(Attach Ring Team) TP4 Amp Bias Adjustment 1.3mV(Attach Ring Team) TP4 Amp Bias Adjustment 1.3mV(Attach Ring Team) TP4 Amp Bias Adjustment 1.3mV(Attach Ring Team) TP4 Amp Bias Adjustment 1.3mV(Attach Ring Team) TP4 Amp Bias Adjustment 1.3mV(Attach Ring Tool) TP4 Amp Bias Adjustment 1.3mV(Attach Ring Tool) TP4 Amp Bias Adjustment 1.3mV(Attach Ring Tool) TP4 Amp Bias Adjustment 1.3mV(Attach Ring Tool) TP4 Amp Bias Adjustment 1.3mV(Attach Ring Tool) TP4 Amp Bias Adjustment 1.3mV(Attach Ring Tool) TP4 Amp Bias Adjustment 1.3mV(attach Ring Term Here). TP4 Amp Bias Adjustment 1.3mV(attach Ring Term Here) TP4 Amp Bias Adjustment 1.3mV(attach Ring Term Here) TP4 Amp Bias Adjustment 1.3mV(attach Ring Term Here) TP4 Amp Bias Adjustment 1.3mV(attach Ring Term Here) TP4 Amp Bias Adjustment 1.3mV(attach Ring Term Here) TP4 Amp Bias Adjustment 1.3mV(attach Ring Term Here) TP4 Amp Bias Adjustment 1.3mV(attach Ring Tool) TP4 Amp Bias Adjustment 1.3mV(attach Ring Tool) TP4 Amp Bias Adjustment 1.3mV(attach Ring Tool) TP4 Amp Bias Adjustment 1.3mV(attach Ring Tool) TP4 Amp Bias Adjustment 1.3mV(attach Ring Tool) TP4 Amp Bias Adjustment 1.3mV(attach Ring Tool) TP4 Amp Bias Adjustment 1.3mV(attach Ring Tool) TP4 Amplifier Adjustment 1.3mV(attach Ring Tool) TP4 Amplifier Adjustment 1.3mV(attach Ring Tool) TP4 Amplifier Adjustment 1.3mV(attach Ring Tool) TP4 Amplifier Adjustment 1.3mV(attach Ring Tool) TP4 Amplifier Adjustment 1.3mV(attach Ring Tool) TP4 Amplifier Adjustment 1.3mV(attach Ring Tool) TP4 Amp Bias Adjustment 1.3mV(attach Ring Tool) TP4 Amp Bias Adjustment 1.3mV(attach Ring Tool) TP4 Amp Bias Adjustment 1.3mV(attach Ring Tool) TP4 Amp Bias Adjustment 1.3mV(attach Ring Tool) TP4 Amp Bias Adjustment 1.3mV(attach Ring Tool) TP4 Amp Bias Adjustment 1.3mV(attach Ring Tool) TP4 Amplifier Adjustment 1.3mV(attach Ring Tool) TP4 Amplifier Adjustment 1.3mV(attach Ring Tool) TP4 Amplifier Adjustment 1.3mV(attach Ring Tool) TP4 Amplifier Adjustment 1.3mV(attach Ring Tool) TP4 Amplifier Adjustment 1.3mV(attach Ring Tool) TP8 AMplifier Adjustment 1.3mV(attach Ring Tool) TP8 Amplifier Adjustment 1.3mV(attach Ring Tool) TP8 Amplifier Adjustment 1.3mV(attach Ring Tool) TP8 Amplifier Adjustment 1.3mV(attach Ring Tool) TP8 Amplifier Adjustment 1.3mV(attach Ring Tool) TP8 Amplifier Adjustment 1.3mV(attach Ring Tool) TP8 Amplifier Adjustment 1.3mV(attach Ring Tool) TIP6 AMplifier Adjustment 1.3mV(attach Ring Tool) TIP6 Amplifier Adjustment 1.3mV(attach Ring Tool) TIP6 Amplifier Adjustment 1.3mV(attach Ring Tool) TIP6 Amplifier Adjustment 1.3mV(attach Ring Tool) TIP6 Amplifier Adjustment 1.3mV(attach Ring Tool) TIP6 Amplifier Adjustment 1.3mV(attach Ring Tool) TIP6 Amplifier Adjustment 1.3mV(TIP6 AMplifier Adjustment) TIP6 Amplifier Adjustment 1.3mV(TIP6 AMplifier Adjustment) TIP6 Amplifier Adjustment 1.3mV(TIP6 AMplifier Adjustment) TIP6 Amplifier Adjustment 1.3mV(TIP6 AMplifier Adjustment) TIP6 Amplifier Adjustment 1.3mV(TIP6 AMplifier Adjustment) TIP6 Amplifier Adjustment 1.3n m (S/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/TH/ThPCB ASSEMBLY DOCUMENTATION
SPECIAL PRODUCTION NOTES
- PCBSA: ADD RTV BETWEEN POWER SUPPLY CAPS AS SHOWN HERE.
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180V 23d16L 01 SMH 160V 23d16L 01 SMH 160V 23d16L 01 SMH 160V 23d16L 01 SMH 160V 23d16L 01 SMH 160V 23d16L 01 SMH 160V 23d16L 23d170V 160V 23d170V 160V 23d170V 160V 23d170V 160V 23d170V 160V 23d170VPCB HARDWARE
SCREWS AND BOLTS
NUTS
STANDOFFS
MISCELLANEOUS
THIS SHEET CONTAINS SPECIAL PRODUCTION NOTES AND A LIST OF PCB HARDWARE PARTS REQUIRED FOR THE BUILD.
| Yorkville Assembly Documentation | ||||
| Production EF10P-EF12P-EF15P | ||||
| Production 2021-11-17 | File | Assembly Certificate | Ex. No. | Date |
| 14 | 15 | 16 | 17 | |
DESIGN HISTORY AND INFORMATION
CHANGE HISTORY
| # | DATE | VER# | PCI# | DESCRIPTION OF CHANGE |
| 1 | 2017/03/03 | V01 R | RELEASED FOR PRODUCTION | |
| 2 | 2017/09/15 | V01 | 9116 | MARKED W3 CONNECTOR - YS PART# 4018 AS DNS |
| 3 | 2017/11/14 | V01 | - | CHANGE FUSE PART NUMBER FOR CE FROM 2475 TO 2473 (T1.5A) |
| 4 | 2018-10-12 | V01 | - | Released M1803V01 |
| 5 | - | 9390 | Schematic error fixed | |
| 6 | ||||
| 7 | ||||
| 8 | ||||
| 9 | ||||
| 10 | ||||
| 11 | ||||
| 12 | ||||
| 13 |
| # | DATE | VER# | PC# | DESCRIPTION OF CHANGE |
| 1 | .. | |||
| 2 | .. | |||
| 3 | .. | |||
| 4 | .. | |||
| 5 | .. | |||
| 6 | .. | |||
| 7 | .. | |||
| 8 | .. | |||
| 9 | .. | |||
| 10 | .. | |||
| 11 | .. | |||
| 12 | .. | |||
| 13 | .. |
POTENTIOMETERS AND KNOBS
| POTENTIOMETERS AND KNOBS | |||
| REF | FUNCTION | POT# | KNOB# |
PINOUT DIAGRAMS
THIS SHEET CONTAINS A CHANGE HISTORY LOG, A LIST OF THE POTS & KNOBS AND A LEADS & PINS REFERENCE SECTION.
| Yorkville | Design Information And History | |||
| Product: EF10P-EF12P-EF15P | ||||
| 201409-12 11&10C008/Bnd. | EML#e-01 | T### F### W001 | ||
| ### 202-11-17 | F### History/SchDoc | |||
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Model Transformer EF15P CH1341U EF12P CH11441U EF10P CH1342U FEMALE CONNECTOR HATZEL FLOWER SIDE BLK/YEI BLACK BROWN ORANGE BLUE WHITE FAZA. E. CONNECTOR RICHES FLOW/ WIFE SIDE NA CE Clearfield AC CALE CONC. OF 100V LINE LINE NEUTRAL NEUTRAL CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 10O CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 100V CALE CONC. OF 95V CALE CONC. OF 95V CALE CONC. OF 95V CALE CONC. OF 95V CALE CONC. OF 95V CALE CONC. OF 95V CALE CONC. OF 95V CALE CONC. OF 95V CALE CONC. OF 95V CAILE
Power Supply
000x EF10P EF12P EF15P
123480569000000000000000000000000000000000
2018年1月1日 2018年1月1日
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Model Transformer EP15P CH1341U EP12P CH11441U EP10P CH1942U MINI. IF CONNECTOR MINI. IF CONNECTOR MINI. IF CONNECTOR MINI. IF CONNECTOR MINI. IF CONNECTOR MINI. IF CONNECTOR MINI. IF CONNECTOR MINI. IF CONNECTOR MINI. IF CONNECTOR MINI. IF CONNECTOR MINI. IF CONNECTOR MINI. IF CONNECTOR MINI. IF CONNECTOR MINI. IF CONNECTOR MINI. IF CONNECTOR CALENTENS AC NA CE CRITICAL SAFETY COMPONENTS. THIS SYMBOL IS PLACED ADJACENT TO SAFETY CRITICAL COMPONENTS. CRITICAL SAFETY COMPONENTS. THIS SYMBOL IS PLACED ADJACENT TO SAFETY CRITICAL COMPONENTS.DESIGN HISTORY AND INFORMATION
CHANGE HISTORY M1804V01
| # | DATE | VER# | PC# | DESCRIPTION OF CHANGE |
| 1 | SEP-02-2016 | M1804 was part of P6802, P6802 is now de panelized into M1802, M1803, M1804 | ||
| 2 | OCT-12-2015 | V01 | V01 RELEASED FOR PRODUCTION | |
| 3 | MAR-12-2019 | V01 | 9277 | CHANGED W9 AND W10 FROM 4147 TO 4243. |
| 4 | Sept-17-2019 | and changed W11 from 4162 to 4244. | ||
| 5 | ||||
| 6 | ||||
| 7 | ||||
| 8 | ||||
| 9 | ||||
| 10 | ||||
| 11 | ||||
| 12 | ||||
| 13 |
| # | DATE | VER# | PC# | DESCRIPTION OF CHANGE |
| 1 | ||||
| 2 | ||||
| 3 | ||||
| 4 | ||||
| 5 | ||||
| 6 | ||||
| 7 | ||||
| 8 | ||||
| 9 | ||||
| 10 | ||||
| 11 | ||||
| 12 | ||||
| 13 |
| # | DATE | VER# | PC# | DESCRIPTION OF CHANGE |
| 1 | ||||
| 2 | ||||
| 3 | ||||
| 4 | ||||
| 5 | ||||
| 6 | ||||
| 7 | ||||
| 8 | ||||
| 9 | ||||
| 10 | ||||
| 11 | ||||
| 12 | ||||
| 13 |
POTENTIOMETERS AND KNOBS
| POTENTIOMETERS AND KNOBS | |||
| REF | FUNCTION | POT# | KNOB# |
PINOUT DIAGRAMS
THIS SHEET CONTAINS A CHANGE HISTORY LOG, A LIST OF THE POTS & KNOBS AND A LEADS & PINS REFERENCE SECTION.
| Name: Design Information And History | |||
| Company: EF10P, EF12P, EF15P | |||
| N1824 10 115m DF25837me | E% Ref. 01 | ||
| Date: 2019-08-17 | P#: H258376258 | Tgt Ref: 2019 | |
scatter
| Label | Description | Description | | :--- | :--- | :--- | | A | | | | B | | | | C | | | | D | | | | E | | | | F | | | | G | | | | H | | | | Description | Description | | :--- | :--- | | PCB1 | Blank PCB | | Documentation | Blank PCB | | PlasticPin | PlasticPin | | RTV_Holes | RTV_Holes | | Break | Breakholes | | CHASSISSCREW | ChassisCREW | | Section: Product(s): EF10P - EF12P - EF15P PCB#: M1804 Rev#: V01 EML Rev#: 01 Sheet 11 Of 11 Modified: 2019-09-17 File: ECO.SCHDOC Tmp Rev: V031M1804 V01
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EF10P - EF12P - EF15P M1804 V01 Power Supply - AC W9 4243 W10 4243 120VAC C47 5266 680N/250V L5 6492 1300UH C48 6451 4N7/250V 5242 100N/250V C46 W11 4244DESIGN HISTORY AND INFORMATION
CHANGE HISTORY M1804V01
| # | DATE | VER# | PC# | DESCRIPTION OF CHANGE |
| 1 | SEP-02-2016 | M1804 was part of P6802, P6802 is now de panelized into M1802, M1803, M1804 | ||
| 2 | OCT-12-2015 | V01 | V01 RELEASED FOR PRODUCTION | |
| 3 | MAR-12-2019 | V01 | 9277 | CHANGED W9 AND W10 FROM 4147 TO 4243. |
| 4 | Sept-17-2019 | and changed W11 from 4162 to 4244. | ||
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POTENTIOMETERS AND KNOBS
| POTENTIOMETERS AND KNOBS | |||
| REF | FUNCTION | POT# | KNOB# |
PINOUT DIAGRAMS
THIS SHEET CONTAINS A CHANGE HISTORY LOG, A LIST OF THE POTS & KNOBS AND A LEADS & PINS REFERENCE SECTION.
| Name: Design Information And History | |||
| Company: EF10P, EF12P, EF15P | |||
| N1824 10 115m DF25837me | E% Ref. 01 | ||
| Date: 2019-08-17 | P#: H258376258 | Tgt Ref: 2019 | |
élite
Powered EF-Series
The élite EF-Series powered cabinets include a built in mixer allowing microphones and/or line sources to be used directly. The Link connectors allow up to 16 EF-Series powered cabinets to be driven from a single source (a maximum of 3 mixers can be used simultaneously when Linking). To add a subwoofer to the system a 100 Hz high pass filter can be activated.
Power Switch & Mode LED The switch turns the power On or Off and the illumination of the Mode LED indicates that unit is on.
Limit LED The amber Limit LED indicates that the cabinet is operating at full power and the limiter(s) are actively reducing the signal level.
Clip LED The red Clip LED indicates that the signal level is excessive and is causing distortion. To reduce clipping, turn down the mixer levels.
Main In/ Thru (Link) Connectors The Main In / Thru (Link) connectors allow powered cabinets to be driven from a single source. You can Link up to 16 EF-Series powered cabinets! The Main In / Thru (Link) jacks are the correct input to use when using an external mixer.
Note: When operating from weaker signals, use the Line inputs of the first cabinet in the chain. To ensure maximum hum rejection, the proper balanced cables must be used.
Mixer On/Off This switch turns the internal mixer 'on' or 'off.' When the Mic or Line inputs are used, this switch must be set to the 'on' position. If these inputs are not being used, the mixer should be turned 'off.'
Line Inputs The Line inputs allow line level sources such as digital media players (lap tops, tablets or smart phones) and CD players to be connected.
Note: If a microphone is connected to Channel 1 it will have lower gain compared to Channel 2's Mic input (Phantom power is NOT available on Channel 1).
Line Control The Line control adjusts the input volume level of devices plugged into the Line input.
Mic Inputs Any standard microphone may be connected to the Mic input. Phantom power is built-in.
Mic Control The Mic control adjusts the volume level for the Mic input.
Master Control This control adjusts the level of the individual cabinet. When Linking multiple cabinets use this control to individually adjust the relative volumes of each cabinet.
Note: The Master control is designed to be used in the 12 o'clock (middle) position, only minor adjustments are recommended.
Mode Selector The Mode Selector applies specific EQ and tone settings for the EF-Series powered cabinet.
Club: Boosted bass and enhanced highs make this mode ideal for music playback.
Concert: Allows instruments and vocals to be equally and naturally reproduced which is best for live performance.
Vocal: Shaped response specifically for the human voice range ensures vocal intelligibility.
User: Flat by default, can be customized by a user through the Yorkville app with a maximum of five different parametric equalization points with adjustable boost, cut and Q.
Sub Switch For operation with a subwoofer, this switch shuts off the low frequency boost and filters out signals below 100 Hz. This only affects the signals to the internal amplifier and does not affect signals going out from the internal mixer, or to signals passing through the Link connections.
Bluetooth™ Control This control enables or disables the Bluetooth™ connection between a tablet or a smartphone using the Yorkville App. Pressing this control button for more than 4 seconds resets the EF-Series powered cabinet to factory settings.
Faults and Internal Fuse A blown fuse generally means that excessive mains voltage has been applied or there's a serious fault with the unit. Self re-setting thermal switches are built into the power transformer. These will not trip even under the most extreme operating conditions and are provided only for safety reasons.
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LINE MIC MIX MIX MIX MIXER ENABLE MATERIAL Bluetooth™ SMART SUB 100Hz CLI/PLIMIT MODE CLUB CONCERT VOCAL USER LINK AIN IN THRUTo get the full Owner's Manual please visit our website at
http://www.yorkville.com/manuals/ or, if you need a printed version call 905-837-8777
REAL Gear.
REAL People.
Canada Voice: 905-837-8481 Fax: 905-839-5776
U.S.A. Voice: 716-297-2920 Fax: 716-297-3689
www.yorkville.com
Yorkville Sound
550 Granite Court
Pickering, Ontario
LIW-3Y8 CANADA
Yorkville Sound Inc.
4625 Witmer Industrial Estate
Niagara Falls, New York
14305 USA
Printed In CANADA
QuickStart-EF_P-Series-1v7 • YS#QSTART-EFP • October 23, 2023
élite
Powered EF-Series
Niagara Falls, New York
14305 USA
Yorkville.
EYEBOLT INSTALLATION
1. DESCRIPTION
Many of the popular models in the Yorkville speaker cabinet line are now equipped with flying hardware for overhead suspension applications. Depending on the model, two or more internal braces have been provided for rigging purposes. Each brace contains two bolt holes and provides center-of-gravity fly-points for use with in-line or angular loads. Many of the models will support additional suspended cabinets according to their specified working load limits.
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Abstract diagram with interlocking gears inside a square frame (no text or symbols)
IMPORTANT!!
THE RIGGING OF LOUDSPEAKER SYSTEMS IS AN EXTREMELY SERIOUS MATTER. OVERHEAD RIGGING REQUIRES EXTENSIVE EXPERIENCE, INCLUDING (BUT NOT LIMITED TO) CALCULATING WORKING LOAD LIMITS, HARDWARE INSTALLATION, AND PERIODIC SAFETY INSPECTION OF ALL HARDWARE AND CABINETRY. IF YOU LACK THESE QUALIFICATIONS, DO NOT ATTEMPT THE INSTALLATION YOURSELF, BUT INSTEAD USE A PROFESSIONAL STRUCTURAL RIGGER. IMPROPER INSTALLATION CAN RESULT IN BODILY INJURY OR DEATH. CONSULT A STRUCTURAL ENGINEER TO CALCULATE ADDED LOADS FOR A BUILDING. STRUCTURAL REINFORCEMENT MAY BE NECESSARY TO INSURE A SAFE INSTALLATION.
2. REQUIRED TOOLS
4.5mm (7/32") Hex Wrench
Thread lock adhesive (Removable Type)
3. EYEBOLT INSTALLATION
a) Using a 4.5mm (7/32") hex wrench, remove the flat head bolts from the top or bottom of the speaker enclosure to expose the tapped holes (on TX models, the flat head bolts are located within the track rails), as shown below. Be sure to keep these handy as they will be needed to seal the cabinet after the eyebolts are removed.
IMPORTANT!!
USE ONLY LOAD RATED FORGED EYEBOLTS. THESE MAY BE PURCHASED THROUGH YORKVILLE SOUND OR ATM FLY-WARE TO INSURE CABINET-BRACING STRENGTH, MAKE SURE ALL FLY-POINTS ARE SECURED WITH EITHER AN EYEBOLT OR FLAT HEAD HEX BOLT.
b) Place a drop of thread-lock adhesive on the threads of the eyebolt and insert one into exposed hole. Tighten each eyebolt by hand until its fits snugly against the cabinet. Further tighten each eyebolt by rotating it another half turn. Be sure to insert eyebolts in the threaded hole directly in-line with the suspension cable. Always follow the eyebolt manufacturers installation and use instructions.
c) Suspend each cabinet according to working load calculations and practices recommended by the rigging hardware manufacturer.
IMPORTANT!!
ON MODELS WITH ONLY TWO TOP SUSPENSION POINTS THE SUPPLIED PULL BACK AT THE REAR OF THE BOTTOM CENTER PANEL OF THE CABINET IS NOT TO BE USED AS A SUSPENSION POINT. THIS POINT TO BE USED FOR PULL BACK PURPOSES ONLY.
Remove Flat-Head Bolt and replace with Forged Shoulder Eyebolt!
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bolt and vebolt!DO NOT Remove Flat-Head Bolts on the Side of Cabinet/s.
4. WORKING LOAD LIMITS
Specified working load limits have been determined for the enclosure as follows:
| EF10P | 2 Top, 2 Bottom, 2 Each Side, 1 Pullback (bottom) 8 | 14 -20 | weight of cabinet only | |
| EF12P+EF15P | 2 Top, 2 Bottom, 2 Each Side, 2 Pullback 8 x 14 -20 | weight of cabinet only | ||
| EF215P | 2 Top, 2 Bottom, 2 Each Side, 2 Pullback | 8 x 14 -20 | weight of cabinet only |
IMPORTANT!! READ ALL ENCLOSED INSTRUCTIONS ABOUT PROPER USE OF HARDWARE. TO INSURE PROPER INSTALLATION, FOR TECHNICAL INFORMATION ON SUSPENSION TECHNIQUES AND EXTERIOR ACCESSORY INFORMATION WE SUGGEST CALLING ATM FLY-WARES TECHNICAL SERVICES IN THE UNITED STATES AT (310)639-8282 MONDAY THROUGH FRIDAY FROM 9 AM TO 6 PM (PST) OR FAX AT (310)639-8284. YORKVILLE SOUND MAKES NO CLAIMS AS TO THE SAFETY OF THE ENCLOSURES IF RECOMMENDED LOAD LIMITS AND HARDWARE ARE NOT STRICTLY ADHERED TO. NOR DOES IT MAKE ANY SAFETY CLAIMS TO THE RESULTANT INSTALLATION.
IMPORTANT!! TRACK RAILINGS: UNITS THAT INCORPORATE THE TRACK RAILING SYSTEM HAVE THE SAME WORKING LOAD LIMITS AS THEY DO WHEN THEY ARE USED WITH EYEBOLTS. THESE RATINGS MAY BE LIMITED AND BASED ON THE RATINGS OF THE TRACK FITTINGS THEMSELVES. PLEASE ENSURE THAT THE RATING OF THE CERTIFIED TRACK FITTINGS EXCEEDS NECESSARY WORKING LOAD LIMITS.
EYEBOLT INSTALLATION
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Abstract diagram with two interlocking gears inside a square frame, enclosed by an oval (no text or symbols)1. DESCRIPTION
| EF10P | 2 Top, 2 Bottom, 2 Each Side, 1 Pullback (bottom) 8 x 1⁄4-20 | weight of cabinet only | ||
| EF12P+EF15P | 2 Top, 2 Bottom, 2 Each Side, 2 Pullback 8 x 1⁄4-20 | weight of cabinet only | ||
| EF215P | 2 Top, 2 Bottom, 2 Each Side, 2 Pullback | 8 x 1⁄4-20 | weight of cabinet only |
IMPORTANT!! LIRE TOUTE LA DOCUMENTATION INCLUSE AU SUJET DE L'UTILISATION APPROPRIÉ DE LA QUINCAILLERIE. POUR ASSURER UNE BONNE INSTALLATION, POUR OBTENIR DE L'INFORMATION TECHNIQUE SUR LES DIVERSES TECHNIQUES DE SUSPENSION ET POUR OBTENIR DE L'INFORMATION SUR LES ACCESOIRES EXTÉRIEURS NOUS VOUS SUGGÉRONS D'APPELER LE SERVICE TECHNIQUE DE ATM FLY-WARE AUX ETATS-UNIS AU (310)639-8282 DU LUNDI AU VENDREDI DE 9 AM À 6 PM (HSP) OU PAR FAX AU (310)639-8284. YORKVILLE SOUND NE GARANTIE PAS UNE UTILISATION SÉCURITAIRE DES ENCEINTES SI LES LIMITES DE CHARGE RECOMMANDÉES NE SONT PAS RESPECTÉES ET SI VOUS N'ADHÉREZ PAS STRICTEMENT À LA LISTE DE QUINCAILLERIE RECOMMANDÉE.
IMPORTANT!! RAILS DE MONTAGE (TRACK RAILLINGS): LES ENCEINTES INCORPORANT LE SYSTEME DE RAIL DE MONTAGE ONT LES MÊMES LIMITES DE CHARGE DE TRAVAIL QU'ILS SOIENT SUSPENDUS AVEC LE SYSTÈME DE RAIL OU AVEC LES BOULONS À OEIL. CES VALEURS ASSIGNÉES DE LIMITE DE CHARGE PEUVENT ÉTRES LIMITÉS ET BASÉS SUR LA VALEUR DE LIMITE DE CHARGE ASSIGNÉE AUX APPAREILLAGES DE RAIL (TRACK FITTINGS) ELLE-MÊMES. ASSUREZ-VOUS S.V.P. QUE LA VALEUR ASSIGNÉE DE LIMITE CHARGE DE TRAVAIL SUR LES APPAREILLAGES CERTIFIÉS DE RAIL (TRACK FITTINGS) EXÈDE LES LIMITES NÉCESSAIRES DE CHARGE DE TRAVAIL.
