DRV3901-Q1
- AEC-Q100 qualified for automotive applications
- Temperature grade 1: –40°C to +125°C, T A
- Functional Safety-Compliant
- Developed for functional safety applications
- Documentation to aid ISO26262 system design up to ASIL C
- Highly integrated squib driver solution targeted at automotive EV pyro-fuse application
- Integration of power supplies, current regulation, diagnostics, and safety functions
- SPI or HW pin-based triggering for flexible interface options and rapid firing reaction
- Diagnostic functions for system energy reservoir capacitor and squib health monitoring
- Built-in-self-test and diagnostic functions for power supplies, interfaces, drivers, and monitors
- Architecture for reliable operation with redundant power supplies, low-side and high-driver drivers, and secondary monitoring logic
- Up to 28-V (40-V abs. max) operating voltage
- Compact HVSSOP-28 (DGQ) leaded package
- Two-wire load interface with protected, current controlled high-side and protected secondary low-side switches
- Integrated charge pump for minimal MOSFET drop out voltage
- 4-wire, addressable, 24-bit SPI with CRC protection
- Allows multiple device to operate on the same SPI
- Allows for broadcast commands to multiple devices.
- Configurable deployment currents (1.2 A / 2 ms, 1.75 A / 0.5 ms, up to 3.4 A / 0.5 ms)
- Configurable deployment interface options
- 2-pin HW trigger with PWM or level signaling
- Protected SPI command with CRC
- Comprehensive off-state diagnostics
- Device built-in-self-test
- Driver output and switch test
- Interface test
- Energy reservoir capacitor test
- Squib resistance test
- Configurable fault indicator (nFAULT)
The DRV3901-Q1 is a highly integrated squib driver intended for automotive EV pyro-fuse applications. It includes the power supplies, current sensing and regulation, and diagnostics and protection functions needed to drive a squib load. It incorporates several key functions unique to the device that are different from traditional squib drivers. These functions include a hardware pin trigger interface, an energy reservoir capacitor diagnostic, an addressable SPI, and optimized driver stage with integrated charge pump and additional deployment current options.
The hardware pin trigger (TRGx) interface allows for a deployment command to be issued directly in hardware to the DRV3901-Q1. This allows the flexiblity to either trigger the deployment with MCU hardware pins, directly with an overcurrent sensor, or through other external hardware circuit monitors. The hardware trigger pins support a 2-pin interface with both threshold or PWM based options to ensure robustness against miss deployment while still providing flexiblity to support a variety of interface options. Additionally, CRC protected deployment commands can be sent through the SPI bus as a secondary method.
To support a diagnostic for the system energy reservoir capacitor, the DRV3901-Q1 integrates a switch and monitor circuit to be able to bias and monitor the discharge voltage of the reservoir capacitor. This enables the device and the external MCU to detect a loss/failure of the reservoir capacitor or its approximate value in normal operation.
An addressable SPI, allow multiple devices to be controlled on a shared SPI bus. In addition to reducing required MCU resources, the addressable SPI incorporates a broadcast command structure that allows multiple drivers to be coordinated to trigger simultaneously or with staggered delays. The SPI incorporate multiple robustness functions including a CRC, address readback capability, and various bus fault detection mechanisms.
The power stage utilizes a protected high-side and low-side switch to ensure robustness against unintended driving due to a variety of fault conditions. An integrated charge pump ensures minimal drop out voltage across the switches during deployment to enable operation down to low supply voltages. A wide variety of deployment options are available to optimize for different types of squib loads or for specific application requirements.
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Technical documentation
Type | Title | Date | ||
---|---|---|---|---|
* | Data sheet | DRV3901-Q1 Single Channel Squib Driver For Automotive EV Pyro-Fuse datasheet | PDF | HTML | 12 Oct 2023 |
EVM User's guide | DRV3901-Q1EVM-GUI User's Guide (Rev. A) | PDF | HTML | 09 Sep 2024 | |
Technical article | So helfen Squib- und Schütztreiber bei der Optimierung der Sicherheit und Effizienz von HEV/EV-Batterieabschal | PDF | HTML | 30 Jan 2024 | |
White paper | 設計更安全、更智慧且更緊密相連的電池管理系統 | PDF | HTML | 24 Jan 2024 | |
White paper | 더욱 안전하고 스마트하며 더욱 연결된 배터리 관리 시스템 설계 | PDF | HTML | 24 Jan 2024 | |
White paper | Designing Safer, Smarter and More Connected Battery Management Systems | PDF | HTML | 23 Jan 2024 | |
Technical article | How squib and contactor drivers help improve safety and efficiency in HEV/EV battery disconnect systems | PDF | HTML | 08 Jan 2024 | |
Technical article | 爆管和接觸器驅動器如何協助 HEV/EV 電池斷開系統提高安全性和效率 | PDF | HTML | 08 Jan 2024 | |
Technical article | 스퀴브 및 접촉기 드라이버가 HEV/EV 배터리 분리 시스템의 안전과 효율성을 개선하는 방법 | PDF | HTML | 08 Jan 2024 | |
Certificate | DRV3901Q1EVM EU Declaration of Conformity (DoC) | 27 Sep 2023 |
Design & development
For additional terms or required resources, click any title below to view the detail page where available.
DRV3901-Q1EVM — DRV3901-Q1 evaluation module
DRV3901-Q1EVM-FW — DRV3901-Q1EVM firmware
Supported products & hardware
Products
Solenoid drivers
Hardware development
Evaluation board
DRV3901-Q1EVM-GUI — DRV3901-Q1EVM GUI
Supported products & hardware
Products
Solenoid drivers
Hardware development
Evaluation board
DRV3901-Q1EVM-GUI-FW-DF — DRV3901-Q1EVM GUI, MCU FW on EVM, and EVM design files
Supported products & hardware
TIDA-020075 — Automotive high-voltage battery management system 2-channel pyro-fuse driver board reference design
Package | Pins | CAD symbols, footprints & 3D models |
---|---|---|
HVSSOP (DGQ) | 28 | Ultra Librarian |
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