ULD420EUR - Detector Beha-Amprobe - Free user manual and instructions
Find the device manual for free ULD420EUR Beha-Amprobe in PDF.
| Product Type | Ultrasonic Leak Detector |
| Dimensions (Receiver) | 183 x 75 x 43 mm |
| Dimensions (Transmitter) | 137 x 65 x 33 mm |
| Weight (Receiver) | 0.235 kg |
| Weight (Transmitter) | 0.152 kg |
| Power Supply (Receiver) | 4 alkaline AA batteries 1.5 V |
| Power Supply (Transmitter) | 2 alkaline AAA batteries 1.5 V |
| Battery Life (Receiver) | 105 hours |
| Battery Life (Transmitter) | 60 hours |
| Frequency Range (Receiver) | 20 kHz to 90 kHz |
| Transmission Frequency (Transmitter) | 40 kHz (square wave) |
| Display | TFT LCD 6.35 cm (2.5 inches), 240x320 pixels, 262k colors |
| Filter | Digital, up to 3 frequencies, ±5 kHz |
| Main Features | Ultrasonic leak detection, sensitivity adjustment, volume adjustment, noise filter, auto power off (60 min), low battery indicator |
| Supplied Accessories | Receiver ULD-400-RE, transmitter ULD-400-TE, headset, earphones, parabola PB-1, adapter TEA-1, extension TE-1, carrying case, batteries |
| Protection | IP40 |
| Operating Temperature | -20 °C to 50 °C |
| Storage Temperature | -20 °C to 70 °C |
| Maintenance | External cleaning with neutral detergent; replace batteries if necessary |
| Warranty | 2 years (excluding batteries, fuses, accidental damage) |
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USER MANUAL ULD420EUR Beha-Amprobe
Limited Warranty and Limitation of Liability
Your Beha-Amprobe product will be free from defects in material and workmanship for two years from the date of purchase unless local laws require otherwise. This warranty does not cover fuses, disposable batteries or damage from accident, neglect, misuse, alteration, contamination, or abnormal conditions of operation or handling. Resellers are not authorized to extend any other warranty on the behalf of Beha-Amprobe. To obtain service during the warranty period, return the product with proof of purchase to an authorized Beha-Amprobe Service Center or to an Beha-Amprobe dealer or distributor. See Repair Section for details. THIS WARRANTY IS YOUR ONLY REMEDY. ALL OTHER WARRANTIES - WHETHER EXPRESS, IMPLIED OR STATUTORY - INCLUDING IMPLIED WARRANTIES OF FITNESS FOR A PARTICULAR PURPOSE OR MERCHANTABILITY, ARE HEREBY DISCLAIMED. MANUFACTURER SHALL NOT BE LIABLE FOR ANY SPECIAL, INDIRECT, INCIDENTAL OR CONSEQUENTIAL DAMAGES OR LOSSES, ARISING FROM ANY CAUSE OR THEORY. Since some states or countries do not allow the exclusion or limitation of an implied warranty or of incidental or consequential damages, this limitation of liability may not apply to you.
Repair
All Beha-Amprobe tools returned for warranty or non-warranty repair or for calibration should be accompanied by the following: your name, company's name, address, telephone number, and proof of purchase. Additionally, please include a brief description of the problem or the service requested and include the test leads with the product. Non-warranty repair or replacement charges should be remitted in the form of a check, a money order, credit card with expiration date, or a purchase order made payable to Beha-Amprobe.
In-warranty Repairs and Replacement – All Countries
Please read the warranty statement and check your battery before requesting repair. During the warranty period, any defective test tool can be returned to your Beha-Amprobe distributor for an exchange for the same or like product. Please check the "Where to Buy" section on beha-amprobe.com for a list of distributors near you. Additionally, in the United States and Canada, in-warranty repair and replacement units can also be sent to an Amprobe Service Center (see address below).
Non-warranty Repairs and Replacement – Europe
European non-warranty units can be replaced by your Beha-Amprobe distributor for a nominal charge. Please check the "Where to Buy" section on beha-amprobe.com for a list of distributors near you.
Beha-Amprobe
Division and reg. trademark of Fluke Corp. (USA)
Germany*
In den Engematten 14
79286 Glottertal
Germany
Phone: +49 (0) 7684 8009 - 0
beha-amprobe.de
United Kingdom
52 Hurricane Way
Norwich, Norfolk
NR6 6JB United Kingdom
Phone: +44 (0) 1603 25 6662
beha-amprobe.com
The Netherlands - Headquarters**
Science Park Eindhoven 5110
5692 EC Son
The Netherlands
Phone: +31 (0) 40 267 51 00
beha-amprobe.com
*(Correspondence only – no repair or replacement available from this address. European customers please contact your distributor.)
**single contact address in EEA Fluke Europe BV
CONTENTS
- PRECAUTIONS AND SAFETY MEASURES ...... 2
- INTRODUCTION .... 3
- KIT COMPONENTS......4
3.1 Kit Components ....4
3.2 ULD-400-RE Receiver ....5
3.3 ULD-400-TE Transmitter ....6
3.4 Accessories 7
- MAIN APPLICATIONS .... 8
4.1 Using the ULD-400-RE Ultrasonic Leak Detector Receiver 8
4.2 Using the ULD-400-TE Ultrasonic Leak Detector Transmitter 10
- MAINTENANCE....11
5.1 Changing the Receiver Batteries .... 11
5.2 Changing the Transmitter Batteries 12
5.3 Cleaning 12
- SPECIFICATIONS ...... 13
SYMBOLS
 | Caution! Refer to the explanation in this manual. |
 | Consult user documentation. |
 | Battery. |
 | Complies with European Directives. |
| [###] | Conforms to relevant South Korean EMC Standards.Electromagnetic Compatibility:Korea (KCC): Class A Equipment (Industrial Broadcasting & Communication Equipment) [1][1] This product meets requirements for industrial (Class A) electromagnetic wave equipment and the seller or user should take notice of it. This equipment is intended for use in business environments and is not to be used in homes. |
| [###] | Conforms to relevant Australian standards. |
 | This product complies with the WEEE Directive marking requirements. The affixed label indicates that you must not discard this electrical/electronic product in domestic household waste. Product Category: With reference to the equipment types in the WEEE Directive Annex I, this product is classed as category 9"Monitoring and Control Instrumentation" product. Do not dispose of this product as unsorted municipal waste. |
Safety information
The product complies with:
- IEC 61326-1
CENELEC Directives
The instrument conforms to CENELEC Electromagnetic compatibility directive 2014/30/EU.
⚠️ ⚠️ WARNINGS AND PRECAUTIONS
- Not for use on explosive gases.
- Use extreme care when using near pressurized air/gas.
- Use extreme care when using near rotation equipment.
- Use extreme care when using near electrical equipment.
- Use only 4 x AA batteries for the ULD-400-RE Receiver and only 2 x AAA size batteries for the ULD-400-TE Transmitter, properly installed in the battery compartment, to power the Product (see Section 5: Maintenance).
- Remove the batteries if the Product is not used for an extended period of time, or if stored in temperatures above 50 °C (122 °F). If the batteries are not removed, battery leakage can damage the Product.
- Follow all battery care from the battery manufacturer.
2. INTRODUCTION
Ultrasonic sound, or ultrasound, is a sound wave with frequencies above 20 kHz, higher than the upper audible limit of human hearing. Ultrasound can be generated when turbulence created by air or gas is forced through a small orifice. Leaking air or gas is generally considered to be viscous flow, and as the flow velocity increases, the frequency of the ultrasound emitted becomes higher. Vibrating, moving objects or electric discharge will also create an ultrasonic wave, which is very directional in nature and can be used to pinpoint the exact location of a leak, vibration or discharge.
The ULD-400-RE Receiver detects ultrasounds within 20 kHz to 90 kHz frequency, then amplifies and converts these ultrasonic sounds to frequencies and levels that the human ear can hear through headphones and show it on the LCD screen. The 20 kHz to 90 kHz frequency range is the optimal range for detecting a variety of leakage events in assets such as HVAC systems and pneumatic lines. A change in the ultrasound produced by an asset may be indicative that an asset is beginning to fail.
line
| Category | Value | | ------------------------- | --------- | | Infrasound | 0-20 Hz | | Acoustic Sound Ultrasound | 20 kHz | | Red Segment | 20 MHz | | Black Silhouette | 0-200 MHz |Figure 2: Sound range spectrum
3.1 Kit Components
Your shipping box should include:
| ULD-410-EUR ULD-420-EUR | ||
| ULD-400-RE Receiver 1 1 | ||
| ULD-400-TE Transmitter - 1 | ||
| Headphones 1 1 | ||
| Earbuds (for use with hard hat) 1 1 | ||
| PB-1 Power Parabola 1 1 | ||
| TEA-1 Flexible Tubing Adapter 1 1 | ||
| TE-1 Tubular Extension 1 1 | ||
| CC-ULD-400-EUR Hard Carrying Case 1 1 | ||
| AA Batteries (Receiver) 4 4 | ||
| AAA Batteries (Transmitter) - 2 | ||
| Manual 1 1 | ||
Note: Batteries are not pre-installed in the Receiver or Transmitter.
3.2 ULD-400-RE Receiver
text_image
Microphone sensor BEHA-AMPROBE 00 Headphone Volume "+/- " button ULD-400-RE RECEIVER AUTO + - Sensitivity Sensitivity "+/- " button Auto Filter button Headphone jack On/Off button Sound volume Battery status 00 Signal filter Signal strength indication Sensitivity levelFigure 3.2: ULD-400-RE Receiver
3.3 ULD-400-TE Transmitter
The ULD-400-TE Transmitter is included with the ULD-420-EUR kit and is optional for the ULD-410-EUR kit.
When a leak is not pressurized sufficiently the Receiver will not be able to detect it. In these circumstances, the ULD-400-TE Transmitter can be used to emit an ultrasonic sound that the Receiver can read. The Transmitter is programmed with three signal levels for precise pinpointing of leaks.
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BEHA-AMPROBE ULD-400-TE TRANSMITTER Speaker LEDs: high/ medium/low signals HIGH MED LOW SIGNAL Signal level "+/-" button Low battery indicator On/Off buttonFigure 3.3: ULD-400-TE Transmitter
3.4 Accessories
The ULD-400-EUR comes supplied with additional Receiver accessories that are helpful in leak identification. Plug the headphones into the Receiver to audibly hear the leak and verify its source (for example hissing sound of an air leak versus ticking sound of an electric discharge). Use the Parabola attachment in situations where there is a high level of background noise to help direct the ultrasound towards the sensor. Use the Tubular Extension with the Adapter in hard to reach areas for additional reach.
Note: There is no speaker on the Receiver. Without headphones, no noise will be audible.
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Parabola (PB-1) Adapter (TEA-1) Tubular Extension (TE-1)
text_image
Tubular Extension (TE-1) Adapter (TEA-1) Parabola (PB-1)Figure 3.4: ULD-400-EUR Accessories
4.1 Using the ULD-400-RE Ultrasonic Leak Detector Receiver
- Turn on the Receiver and plug the headphones into the jack located on the front of the Receiver. Any standard set of 3.5 mm jack headphones are compatible.
- Before moving to the target area, press "+" or "-" sensitivity buttons to adjust signal strength sensitivity to the highest possible level where bargraph still shows either 0 or a value close to 0. If signal strength cannot be adjusted down and the LCD still shows a maximum value regardless on sensitivity adjustments, press the Filter button.*
- Scan the target area with the microphone sensor.
- As you move nearer to the source of the leak, vibration or electric discharge, the signal strength will increase. This will be indicated on a screen with increasing signal strength number and level of the bargraph.
- The bargraph is a relative measurement only, so when the signal strength reaches maximum, lower the sensitivity by pressing the "-" sensitivity button until the displayed signal strength is less than 75. Repeat this process until you have isolated the source of the ultrasound.
- The audible sound emitted via headphones will help to verify the source of the leak, for example hissing sound of the air leak versus ticking sound of the electric discharge. The Receiver screen alone will not provide an indication of the leak source.
Note:
- For surroundings with a high level of background noise use the Parabola (PB-1) to direct the ultrasound towards the sensor.
- For locations that you cannot point the Receiver directly at the leak, the Tubular Extension can be used (TE-1 with the TEA-1 Adapter).
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Diagram illustrating a mobile phone's operation with three screen displays showing 15, 88, and 18 units respectively.Figure 4.1a: Using the Receiver to find a leak
\*ULD-400-RE Filter Operation
In some situations, there might be strong ultrasonic noise generated by running machinery, motion sensors or other equipment. This noise will cause the Receiver to read the maximum signal strength on the display regardless of the sensitivity settings and make it unusable for detecting leaks.
In such cases, press the "Filter" button. The firmware will automatically detect the main noise frequency and filter it out by applying digital non-pass bandwidth filter within +/- 5 kHz. If the signal level does not decrease down close to 0, then the firmware will automatically repeat the process for other noise frequencies. Up to three frequencies can be filtered out automatically. The filter icon will be displayed on the screen and will indicate the number of filters applied, from zero (no noise detected) to a maximum of three.
text_image
00 Y3Figure 4.1b: Filter applied
Note: The filter will be applied to the visual signal indication on a screen (signal strength number and bargraph). The filter will NOT be applied to the audio frequency in order to preserve original sound of the leak and allow the user to better determine the source of the leak.
Note: When working with the Transmitter, make sure to apply the filter on the Receiver before the Transmitter is turned on, or in an area where the Transmitter signal can not be detected. Otherwise, the Transmitter signal frequency will be filtered out and Receiver will not be able to pick it up.
4.2 Using the ULD-400-TE Ultrasonic Leak Detector Transmitter
The Transmitter allows for ultrasonic detection of openings in locations where there is no gas or air pressure, or the pressure is not sufficient to detect the leak with the Receiver alone.
Typical applications include verifying tightness or pinpointing places of air, water or gas leaks in:
- Fluid or gas tanks
• Building windows, doors or roofs
• Car windows and windshields - HVAC vents
• Refrigerant pipelines
The process involves placing the Transmitter inside an object (such as tank, house or a car), sealing the entryways and scanning the object from the outside with the Receiver to verify tightness and pinpoint potential leaks.
- Turn on the Transmitter.
-
Select the output signal level using the "+" or "-" signal level adjustment buttons.
Note: High setting is the default setting. For most applications and specifically for large objects this setting is particularly useful. The High signal may cause the Receiver to read maximum value away from the place of the leak even when lowest sensitivity was selected. Press “-” once to get to Medium signal and press “-” again to get to Low signal strength. Adjust signal level to allow for more precise pinpointing of the leaks. -
Place the Transmitter inside the object to be verified and make sure entryways are sealed.
-
Preform leak detecting with the Receiver as described in section 4.1.
flowchart
graph TD
A["Device with antenna"] -->|Signal| B["Display Screen"]
B --> C["Mobile Phone with Display Screen"]
C --> D["Mobile Phone with Display Screen"]
style A fill:#f9f,stroke:#333
style B fill:#ccf,stroke:#333
style C fill:#cfc,stroke:#333
style D fill:#fcc,stroke:#333
Figure 4.2: Using the Transmitter and Receiver to find a leak
5.1 Changing the Receiver Batteries
The ULD-400-RE uses four 1.5 V AA (LR6) batteries (supplied). To replace the batteries, follow these steps:
- Make sure that the Receiver is turned off.
- Use a screw driver to unscrew the captive screw.
-
Remove the battery cover.
-
Replace the batteries as shown in Figure 5.1. Observe the battery polarity shown in the battery compartment.
-
Replace the battery cover and secure it with the provided screw.
text_image
AA AA AA AAFigure 5.1: Changing the Receiver batteries
5.2 Changing the Transmitter Batteries
The ULD-400-TE uses two 1.5 V AAA (LR03) batteries (supplied with ULD-420-EUR). To replace the batteries, follow these steps:
- Make sure that the Transmitter is turned off.
- Loosen the battery-door lock with a flat screwdriver.
- Remove the battery cover.
- Replace the batteries as shown in Figure 5.2. Observe the battery polarity shown in the battery compartment.
- Replace the battery cover to the lock position.
text_image
AAA AAAFigure 5.2: Replacing the Transmitter batteries
5.3 Cleaning
The only maintenance the ULD-400-EUR requires is inspection and cleaning. Periodically wipe the exterior with a mild solution of detergent and water. Apply sparingly with a soft cloth and allow to dry completely before using. Do not use aromatic hydrocarbons, gasoline or chlorinated solvents for cleaning.
| Features ULD-400-RE ULD-400-TE | ||
| Sensitivity Adjustment Yes | N/A | |
| Volume Adjustment Yes N/A | ||
| Signal Level Adjustment N/A Yes | ||
| Earphone Jack | Yes(compatible with 3.5 mm audio jack) | N/A |
| Display Size LCD 6.35 cm (2.5 in) N/A | ||
| Display Dimensions 36.72 x 48.96 mm (1.45 x 1.93 in) N/A | ||
| Display Resolution 240(RGB) x 320 pixels N/A | ||
| Display Type | TFT-LCD (262 K) | N/A |
| Display Color | True, 16bit/color | N/A |
| Frequency Range | 20 kHz to 90 kHz | Typical 40 kHz squarewave |
| Filter | ±5 KHz of main noise frequency,up to three filters | N/A |
| Power Supply | 4 x 1.5 V AA (LR6) alkaline batteries | 2 x 1.5 V AAA (LR03) alkaline batteries |
| Power Consumption(typical) | 75 mA | 33 mA |
| Battery Life (typical) | 105 hours (Alkaline) | 60 hours (Alkaline) |
| Low battery indication | ### | Yes (Red LED) |
| APO function | 60 minutes when in idle | 60 minutes when in idle |
| Weight | Approx. 0.235 kg (0.518 lb) | Approx. 0.335 lb (0.152 kg) |
| Dimensions | 183 x 75 x 43 mm(7.547 x 2.984 x 1.791 in) | 137 x 65 x 33 mm(5.295 x 2.559 x 1.326 in) |
| Operating Temperature | -20 °C to 50 °C (-4 °F to 122 °F) | |
| Storage Temperature -20 °C to 70 °C (-4 °F to 158 °F) | ||
| Operating Humidity | <80% RH | |
| Pollution Degree | 2 | |
| Protection | IP40 | |
| Certifications | CE | |
| Electromagnetic Compatibility (EMC) | EN 61326-1Korea (KCC): Class A Equipment (Industrial Broadcasting & Communication Equipment)[1][1] This product meets requirements for industrial (Class A) electromagnetic wave equipment and the seller or user should take notice of it. This equipment is intended for use in business environments and is not to be used in homes. | |
NR6 6JB United Kingdom
Telefon: +44 (0) 1603 25 6662
beha-amprobe.com
text_image
Diagram illustrating a mobile phone's wireless signal transmission process, showing input, output, and display counts.text_image
AA AA AA AANR6 6JB United Kingdom
Tel: +44 (0) 1603 25 6662
beha-amprobe.com
natural_image
Three technical line drawings of mechanical components: a triangular tool, a cylindrical housing, and a long rod (no text or symbols)text_image
AA AA AA AA- PRINCIPALES APPLICATIONS ....8
natural_image
Three technical line drawings of mechanical components: a curved blade, a cylindrical housing with internal slots, and a long rod (no text or symbols)Parabole (PB-1) Adaptateur (TEA-1) Rallonge tubulaire
(TE-1)
text_image
Rallonge tubulaire (TE-1) Adaptateur (TEA-1) Parabole (PB-1) (TE-1)text_image
Diagram illustrating a mobile phone's charging process with three display screens showing 15, 88, and 18 units respectively.text_image
AA AA AA AANR6 6JB United Kingdom
natural_image
Three technical line drawings of mechanical components: a curved blade, a cylindrical housing with internal brackets, and a long rod (no text or symbols)Parábola (PB-1) Adaptador (TEA-1) Extensión tubular (TE-1)
text_image
Extensión tubular (TE-1) Adaptador (TEA-1) Parábola (PB-1)text_image
Diagram illustrating a mobile phone's wireless signal transmission process, showing input, output, and display counts.text_image
AA AA AA AA AAline
| Phase | Time Period | Description | |-------|-------------|-----------| | Infrasoon geluid | 0-200 MHz | Green bar, Akoestisch geluid | | Akoestisch geluid | 0-20 MHz | Red bar, Ultrasoon geluid | | Black line (unknown label) | 0-200 MHz | Black silhouette with elephant and human figures, blue silhouette with bat, red bar, black line (unknown label) |natural_image
Line drawing of a mechanical component with a curved blade and central knob (no text or symbols)
natural_image
Simple line drawing of a straight cylindrical rod (no text or symbols)Parabool (PB-1) Adapter (TEA-1) Buisverlenging
(TE-1)
text_image
Buisverlenging (TE-1) Adapter (TEA-1) Parabool (PB-1)text_image
Diagram illustrating a mobile phone's internal structure with labeled components and numerical values, showing a device emitting sound waves.text_image
AA AA AA AANR6 6JB United Kingdom
Telefon: +44 (0) 1603 25 6662
beha-amprobe.com
- PRECAUTIONS AND SAFETY MEASURES 2
- WPROWADZENIE .... 3
- KIT COMPONENTS......4
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Line drawing of a mechanical component with a curved blade and cylindrical pin (no text or symbols)
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Simple line drawing of a cylindrical rod or tube with a circular end (no text or symbols)natural_image
Diagram of a handheld device emitting heat or vibration waves from a surface, with directional arrows indicating motion (no text or symbols)
text_image
15 Y2
bar
| Value | |---| | 88 | | Y2 |
text_image
18 Y2flowchart
graph TD
A["Device with antenna"] -->|Signal| B["Display Screen"]
B --> C["Mobile Phone with Display Screen"]
C --> D["Mobile Phone with Display Screen"]
style A fill:#f9f,stroke:#333
style B fill:#ccf,stroke:#333
style C fill:#cfc,stroke:#333
style D fill:#fcc,stroke:#333
text_image
AA AA AA AANR6 6JB United Kingdom
Telefon: +44 (0) 1603 25 6662
beha-amprobe.com
natural_image
Three technical line drawings of mechanical components: a fan-like device, a cylindrical component with internal parts, and a long rod (no text or symbols)text_image
Diagram illustrating a mobile phone's signal processing process, showing input, output, and display counts with downward arrows.text_image
AA AA AA AA AAFigur 5.1: Byte av mottagarens batterier
NR6 6JB United Kingdom
Puhelin: +44 (0) 1603 25 6662
beha-amprobe.com
natural_image
Three technical line drawings of mechanical components: a fan-like device, a cylindrical component with internal parts, and a long rod (no text or symbols)Parabolinen lisälaite (PB-1) Sovitin (TEA-1) Putkijatkos (TE-1)
text_image
Putkijatkos (TE-1) Sovitin (TEA-1) Parabolinen lisälaite (PB-1)text_image
Diagram illustrating a mobile phone's charging process with three display screens showing 15, 88, and 18 units respectively.flowchart
graph TD
A["Device with antenna"] -->|Signal| B["Mobile Phone"]
B --> C["Mobile Phone with 88% payment interface"]
C --> D["Mobile Phone with 15% payment interface"]
D --> E["Mobile Phone with 2% payment interface"]
text_image
AA AA AA AA AA5.1 Trocar as pilhas do recetor....11
5.2 Trocar as pilhas do transmissor 12
5.3 Limpeza....12
- ESPECIFICAÇÕES ...... 13
SÍMBOLOS
natural_image
Three technical line drawings of mechanical components: a fan-like device, a cylindrical component with internal parts, and a long rod (no text or symbols)text_image
Diagram illustrating a mobile phone's operation with three display screens showing 15, 88, and 18 units respectively.5.1 Trocar as pilhas do recetor
text_image
AA AA AA AAFigura 5.1: Trocar as pilhas do Recetor
5.2 Trocar as pilhas do transmissor
- FORHOLDSREGLER OG SIKKERHETSTILTAK 2
- INNLEDNING 3
- SETTETS DELER....4
3.1 Settets deler....4
3.2 ULD-400-RE mottaker....5
3.3 ULD-400-TE sender 6
3.4 Tilbehør 7
- HOVEDSAKLIGE BRUKSOMRÅDER 8
4.1 Bruke ULD-400-RE ultralyd-lekkasjedetektormottaker....8
4.2 Bruke ULD-400-TE ultralyd-lekkasjedetektorsender 10
- VEDLIKEHOLD.... 11
text_image
AA AA AA AA AAFigur 5.1: Bytte batterier i mottakeren
5.2 Bytte batteri i senderen
NR6 6JB United Kingdom
Telefon: +44 (0) 1603 25 6662
beha-amprobe.com
Holland - Hovedkontor**
Science Park Eindhoven 5110
5692 EC Son
Holland
Telefon: +31 (0) 40 267 51 00
beha-amprobe.com
line
| Period | Frequency Range | | ------------------- | --------------- | | Infralyd Akustisk lyd Ultralyd | 20 kHz to 200 MHz | | Black Band | 20 MHz to 200 MHz | | Black Band | 20 kHz to 200 MHz | | Black Band | 20 kHz to 200 MHz | | Black Band | 20 kHz to 200 MHz | | Black Band | 20 kHz to 200 MHz | | Black Band | 20 kHz to 200 MHz | | Black Band | 20 kHz to 200 MHz | | Black Band | 20 kHz to 21 MHz | | Black Band | 20 kHz to 21 MHz | | Black Band | 20 kHz to 21 MHz | | Black Band | 20 kHz to 21 MHz | | Black Band | 20 kHz to 21 MHz | | Black Band | 20 kHz to 21 MHz | | Black Band | 20 kHz to 21 MHz | | Black Band | 21 kHz to 21 MHz | | Black Band | 21 kHz to 21 MHz | | Black Band | 21 kHz to 21 MHz | | Black Band | 21 kHz to 21 MHz | | Black Band | 21 kHz to 21 MHz | | Black Band | 21 kHz to 21 MHz | | Black Band | 21 kHz to 21 MHz | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Land | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Hand | - | | Black Handed | - | | Black Handed | - | | Black Handed | - | | Black Handed | - | | Black Handed | - | | Black Handed | - | | Black Handed | - | | Black Handed | - | | Black Handed | - | | Black Handed | - | | Black Handed | - | | Black Handed (Top) | - | | Black Handed (Top) | - | | Black Handed (Top) | - | | Black Handed (Top) | - | | Black Handed (Top) | - | | Black Handed (Top) | - | | Black Handed (Top) | - | | Black Handed (Top) | - | | Black Handed (Top)|Fig. 2: Spektrum for lydområde
3.1 KOMPONENTER
natural_image
Three technical line drawings of mechanical components: a curved blade, a cylindrical housing with internal brackets, and a long rod (no text or symbols)text_image
Diagram illustrating a mobile phone's signal processing process, showing input, output, and display counts with downward arrows.text_image
AA AA AA AA AANR6 6JB United Kingdom
Telefon: +44 (0) 1603 25 6662
beha-amprobe.com
natural_image
Three technical line drawings of mechanical components: a blade-like tool, a cylindrical component with internal brackets, and a long rod (no text or symbols)Parabola (PB-1) Adaptér (TEA-1) Trubicový nástavec (TE-1)
text_image
Trubicový nástavec (TE-1) Adaptér (TEA-1) Parabola (PB-1)flowchart
graph TD
A["Device with antenna"] -->|Signal Wave| B["Mobile Phone"]
B --> C["Device with 88% waveform"]
C --> D["Mobile Phone with 15% waveform"]
D --> E["Device with 2% waveform"]
text_image
AA AA AA AA AA- Catalog
- Application notes
• Product specifications - User manuals
Beha-Amprobe®
beha-amprobe.com
c/o Fluke Europe BV
Science Park
Eindhoven 5110
NL-5692 EC Son
Tel.: +49 (0) 7684 8009 - 0
Please
Recycle
