System Considerations

In order to ensure proper operation of the decode engine’s electrical system; care must be taken to ensure the following requirements are met.

Power Supply*

The decode engine is powered from the host device via the VIN and GND pins of the ZIF connector on the decode board. This voltage must be maintained within the specified voltage range at the decode board (see electrical specifications on page 34). Voltage drops in the host flex cable must be taken into account. The power must be clean and heavily decoupled in order to provide a stable power source.

Note: The power supply must be able to handle dynamic current loads because the input current will increase considerably when the illumination LEDs are enabled.

Host Flex Cable

The host flex cable is used to carry power and data signals between the decode engine and the host system. The flex cable should allow for minimal voltage drop and maintain a good ground connection between the host and the decode engine. In terms of grounding and voltage drop, a shorter cable is better.

In addition to power, the flex cable will also carry the digital signals required for communication. The cable design is especially important in the case of USB due to the relative high speed of the USB signals.

The impedance of the cable should match, or be as close as possible to, the impedance of the USB driver (approximately 45 ohms per trace).

The routing of the host flex cable also plays a critical role in the system design. The cable should be routed away from high frequency devices since these frequencies can couple onto the flex cable and cause potential data corruption or unwanted electromagnetic inference, EMI.

Power Sequencing*

The decode engine is powered from the VIN power signal on the ZIF connector on the decode board. Most of the host signals (signals present on the ZIF connector) are relative to this voltage. Not all of these signals are overvoltage tolerant thus; care must be taken to ensure that the relationship between the VIN and the host signals are always met (see electrical specifications on page 34).

Thermal Considerations

The decode engine is qualified over the specified operational temperatures (0°C to 40°C) for all operating modes. Make sure ambient temperatures do not exceed this range in order to guarantee operation. Operating the decode engine in continuous mode for an extended period may produce considerable heating. This mode should be limited and sufficient airflow should be provided whenever possible to minimize internal heating. Excessive heating may degrade images and potentially damage the engine.

*See page 38 for additional information on electrical specifications.

See pages 38 and 42 for additional information on the engine pinouts and flex cable pinouts.

15