SLVSE03B April 2019 – February 2021 TPS929120-Q1
PRODUCTION DATA
The internal AD converter of TPS92910-Q1 continuously monitors the supply voltage and compares the results with internal threshold V(ADCLOWSUPTH) set by CONF_ADCLOWSUPTH as described in Register Maps. If the supply voltage is lower than threshold, the device pulls ERR pin down with one pulsed current sink for 50 µs to report the fault and set flag registers including FLAG_ADCLOWSUP to 1. The master controller can write register CLR_FAULT to 1 to reset this flag, and the CLR_FAULT bit automatically returns to 0. The internal ADC monitors supply voltage and converters to 8-bit binary code in every conversion cycle T(CONV) when it is in idle. After each AD conversion-cycle time on supply, the ADC_SUPPLY is automatically updated with the latest result.
The low-supply warning is also used to disable the LED open-circuit detection and single-LED short-circuit detection. When the voltage applied on SUPPLY pin is higher than the threshold V(ADCLOWSUPTH), the TPS929120-Q1 enables LED open-circuit and single-LED short-circuit diagnosis. When V(SUPPLY) is lower than the threshold V(ADCLOWSUPTH), the device disables LED-open-circuit detection and single-LED short-circuit diagnosis. Because when V(SUPPLY) drops below the maximum total LED forward voltage plus required V(DROPOUT) at required current, the TPS929120-Q1 is not able to deliver sufficient current output to pull the voltage of each output channel as close as possible to the V(SUPPLY). In this condition, the LED open-circuit fault or single-LED short-circuit fault might be detected and reported by mistake. Setting the low-supply warning threshold high enough can avoid the LED open-circuit and single LED short-circuit fault being detected when V(SUPPLY) drops to low. The V(ADCLOWSUPTH) is programmable from 5 V to 20 V.