8.2.1 Design Requirements
Consider the following information during XTR305 circuit configuration:
- Recommended bypassing: 100 nF or more for supply bypassing at each supply.
- RIMON can be in the kΩ range or short-circuited if not used. Do not leave this current output unconnected — it would saturate the internal current source. The current at this IMON output is IDRV / 10. Therefore, VIMON = RIMON (IDRV /1 0).
- R3 is not required but can match RSET (or RSET||ROS) to compensate for the bias current.
- RIA can be short-circuited if not used. Do not leave this current output unconnected. RGAIN is selected to 10 kΩ to match the output of 10 V with 20 mA for the equal input signal.
- RC ensures stability for unknown load conditions and limits the current into the internal protection diodes. C4 helps protect the device. Overvoltage clamp diodes (standard 1N4002) might be necessary to protect the output.
- R6, R7, and C5 protect the IA.
- RLOAD and CLOAD represent the load resistance and load capacitance.
- RSET defines the transfer gain. It can be split to allow a signal offset and, therefore, allow a 5-V single-supply digital-to-analog converter (DAC) to control a ±10-V or ±20-mA output signal.
The XTR305 can be used with asymmetric supply voltages; however, the minimum negative supply voltage must be equal to or more negative than −3 V (typically −5 V). This supply value ensures proper control of 0 V and 0 mA with wire resistance, ground offsets, and noise added to the output. For positive output signals, the current requirement from this negative voltage source is less than 5 mA.
GND1 through GND4 must be selected to fulfill specified operating ranges. DGND must be in the range of (V−) ≤ DGND ≤ (V+) −7 V.