SBVS420A March 2022 – September 2023 TPS3760
PRODUCTION DATA
Built-in hysteresis to avoid erroneous output reset release. The hysteresis is opposite to the threshold voltage; for overvoltage options the hysteresis is subtracted from the positive threshold (VITP), for undervoltage options hysteresis is added to the negative threshold (VITN).
TARGET | DEVICE ACTUAL HYSTERESIS OPTION | ||
---|---|---|---|
DETECT THRESHOLD | TOPOLOGY | RELEASE VOLTAGE (V) | |
18.0 V | Overvoltage | 17.5 V | -3% |
18.0 V | Overvoltage | 16.0 V | -11% |
17.0 V | Overvoltage | 16.5 V | -3% |
16.0 V | Overvoltage | 15.0 V | -6% |
15.0 V | Overvoltage | 14.0 V | -7% |
6.0 V | Undervoltage | 6.5 V | 0.5 V |
5.5 V | Undervoltage | 6 V | 0.5 V |
8 V | Undervoltage | 9 V | 1 V |
5 V | Undervoltage | 7.5 V | 2.5 V |
Table 8-1 shows a sample of hysteresis and voltage options for the TPS3760. For threshold voltages ranging from 2.7 V to 8 V, one option is to select a fixed hysteresis value ranging from 0.5 V to 2.5 V in increments of 0.5 V. Additionally, a second option can be selected where the hysteresis value is a percentage of the threshold voltage. The percentage of voltage hysteresis ranges from 2% to 13%.
Knowing the amount of hysteresis voltage, the
release voltage for the undervoltage (UV) channel is
(VITN (UV) + VHYS) and for the overvoltage (OV) channel is
(VITP (OV) - VHYS). The accuracy of the release voltage, or stated
in the Electrical Characteristics as Hysteresis Accuracy is ±1.5%. Expanding what is
shown in Table 8-1, below are a few voltage hysteresis examples that include the hysteresis accuracy:
Undervoltage (UV) Channel
VITN = 0.8 V
Voltage Hysteresis (VHYS) = 5% = 40 mV
Hysteresis Accuracy = ±1.5% = 39.4 mV or 40.6 mV
Release Voltage = VITN + VHYS = 839.4 mV to 840.6 mV
Overvoltage (OV) Channel
VITP = 8 V
Voltage Hysteresis (VHYS) = 2 V
Hysteresis Accuracy = ±1.5% = 1.97 V or 2.03 V
Release Voltage = VITN - VHYS = 5.97 V to 6.03 V