JAJSIW0M November 2004 – January 2023 TLVH431 , TLVH431A , TLVH431B , TLVH432 , TLVH432A , TLVH432B
PRODUCTION DATA
In order for TLVH431 to properly be used as a comparator, the logic output must be readable by the receiving logic device. This is accomplished by knowing the input high and low level threshold voltage levels, typically denoted by VIH and VIL.
As shown in GUID-48D7CED9-5F64-428A-99B3-F422301B14B8.html#SLVS5555185 and GUID-48D7CED9-5F64-428A-99B3-F422301B14B8.html#SLVS5554136, TLVH431's output low level voltage in open-loop/comparator mode is approximately 1 V, which is sufficient for some 3.3 V supplied logic. However, would not work for 2.5 V and 1.8 V supplied logic. To accommodate this a resistive divider can be tied to the output to attenuate the output voltage to a voltage legible to the receiving low voltage logic device.
TLVH431's output high voltage is approximately VSUP due to TLVH431 being open-collector. If VSUP is much higher than the receiving logic's maximum input voltage tolerance, the output must be attenuated to accommodate the outgoing logic's reliability.
When using a resistive divider on the output, be sure to make the sum of the resistive divider (R1 and R2 in GUID-22596AA7-A2D8-45AF-9824-F4E3978B05B0.html#SLVS5559672) is much greater than RSUP in order to not interfere with TLVH431's ability to pull close to VSUP when turning off.