SNOSB29H November 2009 – May 2022 LMP8645 , LMP8645HV
PRODUCTION DATA
The traces leading to and from the sense resistor can be significant error sources. With small value sense resistors (< 100 mΩ), any trace resistance shared with the load current can cause significant errors.
The amplifier inputs should be directly connected to the sense resistor pads using Kelvin or 4-wire connection techniques. The traces should be one continuous piece of copper from the sense resistor pad to the amplifier input pin pad, and ideally on the same copper layer with minimal vias or connectors. This can be important around the sense resistor if it is generating any significant heat gradients.
To minimize noise pick-up and thermal errors, the input traces should be treated like a differential signal pair and routed tightly together with a direct path to the input pins (preferably on the same copper layer). The input traces should be run away from noise sources, such as digital lines, switching supplies or motor drive lines.
Ensure that the sense traces have the appropriate trace routing clearances for the expected load supply voltages.
Because the sense traces only carry the amplifier bias current, the connecting input traces can be thinner, signal level traces. Excessive Resistance in the trace should also be avoided.
The paths of the traces should be identical, including connectors and vias, so that any errors will be equal and cancel.
The sense resistor will heat up as the load increases. As the resistor heats up, the resistance generally goes up, which will cause a change in the readings. The sense resistor should have as much heatsinking as possible to remove this heat through the use of heatsinks or large copper areas coupled to the resistor pads.
The gain set resistor pin is a sensitive node and can pick up noise. Keep the gain set resistor close to the RG pin and minimize RGAIN trace length. Connect the grounded end of RGAIN directly to the LMP8645 ground pin.