Packaging information
Package | Pins SOT-23-THN (DDF) | 8 |
Operating temperature range (°C) -40 to 125 |
Package qty | Carrier 3,000 | LARGE T&R |
Features for the TPS3704-Q1
- ASIL-A Functional Safety-Compliant
- Development targeted for functional safety applications
- Documentation to aid ISO 26262 system design
- Systematic capability up to ASIL D
- Hardware capability up to ASIL A
- AEC-Q100 qualified for automotive
applications
- Device temperature grade 1: –40°C to +125°C
- 1-4 channels for monitoring state-of-the art SOCs
- High ±0.25% (typical) threshold accuracy
- Configure each channel for Window, UV, or OV voltage monitoring
- Programmable window tolerance [3% to 11% (typical*)] for each channel
- Easy to use calculator tool for adjustable versions
- Designed to monitor Core and GPIO rails of TI processors (AM26x, AM62x, TDA4)
- Miniature solution with low power consumption
- 5.5µA typical quiescent current
- Compact 6 pin SOT-23 package (2.9mm x 1.6mm)
- Additional Features
- Built-in hysteresis to prevent false trip on RESET: 0.75% (typical)
- 23 fixed time delay options (selectable from 20µs to 1200ms)
- Open drain or push-pull output topology available
Description for the TPS3704-Q1
The TPS3704-Q1 is an ASIL-A compliant low-power precision window (UV +OV) voltage supervisor that can be configured and is available in an 8-pin (1.6mm x 2.9mm) SOT-23 package. This highly accurate (±0.25%) supervisor is available as a quad, triple, dual, and or single channel options. Each channel can be customized to its own overvoltage and undervoltage window detection with an upper and lower threshold tolerance that can be symmetric or asymmetric.
TPS3704-Q1 allows for highly accurate threshold detection with high resolution that is designed for systems operating on low-voltage supply rails with narrow margin supply tolerances. In addition, the built-in low threshold hysteresis and fixed reset delay features prevent false reset signals when monitoring multiple voltage rails.
The TPS3704-Q1 does not require any external resistors for setting the overvoltage and undervoltage reset thresholds which improves reliability for safety systems and optimizes overall accuracy, cost, solution size. Optional use of external resistors for design flexibility is supported by the SENSEx pins. Separate VDD and SENSEx pins allow monitoring of voltage rails other than VDD or alternatively enables use of a push-button input.