Apocalypse Atom 700.2 PRO - Uncategorized Deaf Bonce - Free user manual and instructions
Find the device manual for free Apocalypse Atom 700.2 PRO Deaf Bonce in PDF.
| Product Type | 2-Channel Car Audio Amplifier |
| Model | Apocalypse Atom 700.2 PRO |
| Brand | Deaf Bonce |
| Power Supply | 12V DC (Negative Ground) |
| Maximum Power Output | 700W (estimated) |
| RMS Power Output (per channel @ 4 ohm) | 175W RMS x 2 (typical) |
| Number of Channels | 2 |
| Load Impedance | 2-8 Ohm (stable) |
| Frequency Response | 20 Hz - 20 kHz |
| Input Sensitivity | 0.2V - 6V |
| Dimensions (W x H x D) | 350 x 50 x 200 mm (estimated) |
| Weight | 3.0 kg (estimated) |
| Cooling | Natural convection via aluminum heatsink |
| Protection Circuits | Short circuit, thermal, and overvoltage protection |
| Recommended Installation | Horizontal mounting in well-ventilated area, temperature 0-55°C |
| Material | Aluminum alloy (heatsink), steel chassis |
| Color | Black |
| Safety Features | High sound pressure warning, reverse polarity protection |
| Maintenance | Clean heatsink periodically with a damp cloth; avoid solvents |
| Warranty | Manufacturer warranty (details in manual) |
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Download the instructions for your Uncategorized in PDF format for free! Find your manual Apocalypse Atom 700.2 PRO - Deaf Bonce and take your electronic device back in hand. On this page are published all the documents necessary for the use of your device. Apocalypse Atom 700.2 PRO by Deaf Bonce.
USER MANUAL Apocalypse Atom 700.2 PRO Deaf Bonce
- Introduction
- Safety instructions
- Typical installation sequence
- Selection of the diameter of power cables and speaker cables
- Wiring diagrams
- Connection methods
- Specifications
- Possible faults and their solutions
- Box contents
- Information on disposal of the electrical and electronic equipment (for the European countries with separate waste collection)
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2. SAFETY INSTRUCTIONS
- Make sure that your vehicle has a 12V DC electrical system with negative grounding. Before installing the amplifier in cars, trucks or buses, check the battery voltage.
- Check the state of on-board power supply of your vehicle, the battery and the alternator. When the engine is running, depending on the ambient temperature, the voltage to be outputted by the alternator must be within the range of 14 to 14.7 V. Open circuit voltage (OCV) of the battery must be within the range of 12.5 to 13 V. Make sure that the rated current of the alternator and the battery capacity is enough to provide increased consumption.
For example, for the power of the amplifier 1000 W, the rated current of the alternator is required at the rate of 1000 W / 13 V = 77 amperes. A more powerful amplifier requires a more powerful alternator as well as an additional battery. - Do not place the amplifier in the engine compartment and also in the places exposed to water, moisture, dust or dirt.
- Never stretch the cables outside of the car and near the moving parts of the car. This can lead to destruction of the insulating layer, short circuit and fire.
- The amplifier should be installed in areas of the car where the temperature varies from 0 °C (32 °F) to 55 °C (131 °F). The amplifier should be in a place with a good air circulation. The horizontal position of the amplifier is the best way to install.
- During the operation the amplifier may be heated up to 80 °C (176 °F). Before you touch it, make sure it is not overheated that may be dangerous.
- To improve the cooling of the amplifier, it is recommended to clean periodically the heatsink from dust. When cleaning the heatsink strong solvents should not be used as they may damage the amplifier. Do not use compressed air, because solids can penetrate inside the amplifier. Cleanings best done with wet towels or cloth.
- Make sure that the location of the amplifier does not violate the proper operation of mechanical and electrical devices of the vehicle.
- Make sure that during the installation and connection of the battery, the power cables are not shorted.
- When performing plumbing, drilling or cutting works with the car, make sure that there is no wiring, brake lines, fuel pipe or other structural elements under the place of work. Follow the safety rules! Use protective glasses and gloves.
- To protect the wires use rubber gaskets if the wire passes through a hole in the plate, or other similar materials if it lies close to the parts exposed to heat.
- Make sure that all the cables are fixed over the entire length. Also make sure that their outer protective shell is non-combustible. Use a clamping screw to secure the positive and negative cables next to the appropriate terminals of the amplifier.
- Select a diameter of the power cable in accordance with the power of the amplifier and the recommendations provided here. Power cables are extremely important since they directly affect the system damping factor and sound quality. The cables to the battery must be in the copper crimp terminals pressed with the help of a hydraulic press, and well fixed to the battery terminals.
- To avoid accidental damage, keep the amplifier in its original packaging prior to installation.
- Use high-quality copper speaker and power cables.
CAUTION!!! High sound pressure can damage your health!
Please use the common sense when controlling volume!
3. TYPICAL INSTALLATION SEQUENCE
4. SELECTION OF THE DIAMETER OF POWER CABLES AND SPEAKER CABLES
EN
Selection of the diameter of the power cables
Selection of the diameter of the speaker cables
Use the table below to select the desired diameter based on the length and the current consumption.

Use the table below to select the desired diameter based on the length and the power consumption.






6. CONNECTION METHODS
SPEAKERS WIRING DIAGRAMS
In any case do not expose the amplifier to the loads lower than specified by the manufacturer. Use these schematics to calculate load impedance of different connection types.
Serial connection of the speakers

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Pure electrical circuit lines without any symbolsParallel connection of the speakers

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Pure electrical circuit lines without any symbolsMixed connection of the speakers

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Pure electrical circuit lines without any symbolsCAUTION!!! High sound pressure can damage your health! Please use the common sense when controlling volume!
SUBWOOFERS WIRING DIAGRAMS
Serial connection
EN
Total impedance = ΩSub 1 + ΩSub 2 + ΩSub 3 ...
Parallel connection
$$ \text { Total impedance } = \frac {1}{\frac {1}{\Omega \text { Sub } 1} + \frac {1}{\Omega \text { Sub } 2} + \frac {1}{\Omega \text { Sub } 3}} \dots $$
SCHEMES OF ENABLING THE LOAD OF THE SUBWOOFER
In any case do not expose the amplifier to the loads lower than specified by the manufacturer. Use these schematics to calculate load impedance of different connection types.
Voice coils 1+1,2+2,4+4 Ohm
The subwoofer has voice coil D1, D2 or D4.

One subwoofer, coils in series

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Pure electrical circuit lines without any symbols| Voice coils | Total impedance |
| 1+1 Ohm | 2 Ohm |
| 2+2 Ohm | 4 Ohm |
| 4+4 Ohm | 8 Ohm |
One subwoofer, coils in parallel

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Pure electrical circuit lines without any symbols| Voice coils | Total impedance |
| 1+1 Ohm | 0.5 Ohm |
| 2+2 Ohm | 1 Ohm |
| 4+4 Ohm | 2 Ohm |
Subwoofers in series, coils in parallel

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Pure electrical circuit lines without any symbols| Voice coils | Total impedance |
| 1+1 Ohm | 1 Ohm |
| 2+2 Ohm | 2 Ohm |
| 4+4 Ohm | 4 Ohm |

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Pure electrical circuit lines without any symbols| Voice coils | Total impedance |
| 1+1 Ohm | 1.5 Ohm |
| 2+2 Ohm | 3 Ohm |
| 4+4 Ohm | 6 Ohm |
| Voice coils | Total impedance |
| 1+1 Ohm | 2 Ohm |
| 2+2 Ohm | 4 Ohm |
| 4+4 Ohm | 8 Ohm |
Subwoofers in series, coils in series

flowchart
graph TD
A["Power Supply"] --> B["Speaker 1"]
A --> C["Speaker 2"]
B --> D["Ground"]
C --> E["Ground"]
D --> F["Output"]
E --> G["Output"]
style A fill:#f9f,stroke:#333
style B fill:#ccf,stroke:#333
style C fill:#ccf,stroke:#333
style D fill:#dfd,stroke:#333
style E fill:#dfd,stroke:#333
style F fill:#dfd,stroke:#333
style G fill:#dfd,stroke:#333
| Voice coils | Total impedance |
| 1+1 Ohm | 4 Ohm |
| 2+2 Ohm | 8 Ohm |
| 4+4 Ohm | 16 Ohm |
| Voice coils | Total impedance |
| 1+1 Ohm | 6 Ohm |
| 2+2 Ohm | 12 Ohm |
| 4+4 Ohm | 24 Ohm |
| Voice coils | Total impedance |
| 1+1 Ohm | 8 Ohm |
| 2+2 Ohm | 16 Ohm |
| 4+4 Ohm | 32 Ohm |
Subwoofers in parallel, coils in series

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Pure electrical circuit lines without any symbols| Voice coils | Total impedance |
| 1+1 Ohm | 1 Ohm |
| 2+2 Ohm | 2 Ohm |
| 4+4 Ohm | 4 Ohm |

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Pure electrical circuit lines without any symbols| Voice coils | Total impedance |
| 1+1 Ohm | 0.66 Ohm |
| 2+2 Ohm | 1.33 Ohm |
| 4+4 Ohm | 2.66 Ohm |
| Voice coils | Total impedance |
| 1+1 Ohm | 0.5 Ohm |
| 2+2 Ohm | 1 Ohm |
| 4+4 Ohm | 2 Ohm |
Subwoofers in parallel, coils in parallel

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Pure electrical circuit lines without any symbols| Voice coils | Total impedance |
| 1+1 Ohm | 0.25 Ohm |
| 2+2 Ohm | 0.5 Ohm |
| 4+4 Ohm | 1 Ohm |
| Voice coils | Total impedance |
| 1+1 Ohm | 0.16 Ohm |
| 2+2 Ohm | 0.33 Ohm |
| 4+4 Ohm | 0.66 Ohm |
| Voice coils | Total impedance |
| 1+1 Ohm | 0.125 Ohm |
| 2+2 Ohm | 0.25 Ohm |
| 4+4 Ohm | 0.5 Ohm |
CAUTION!!! High sound pressure can damage your health! Please use the common sense when controlling volume!
7. SPECIFICATIONS
EN
8. POSSIBLE FAULTS AND THEIR SOLUTIONS
Items marked "crisscrossed wheeled bin" are not allowed to be disposed of together with usual household waste. These electrical and electronic products should be disposed of in special reception centers, equipped for recycling such products and components. For information about the location of the nearest disposal / recycling spot and the rules of delivery of waste please contact your local municipal office. Recycling and proper disposal helps to protect the environment and prevent harmful effects on health.
Manufacturer: Ningbo Sound Solution I&E Trading Co., Ltd Made in China




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