TPS92544-Q1 65V Automotive Synchronous Boost Controller, and 2A Synchronous CC/CV Buck Converter, and Trapezoidal Motion Profile Control of Stepper Motor
1 Features
- AEC-Q100 qualified for automotive applications
- Grade 1: –40°C to 125°C ambient operating temperature
- Device HBM classification level H1C
- Device CDM classification level C5
- Functional Safety-Capable
- Documentation available to aid functional safety system design
- 4.5V to 65V wide input voltage range
- Synchronous Buck with integrated switches
- Configurable Constant Voltage (CV) and Constant Current (CC) operation
- Up to 2A continuous output current with 4% accuracy
- 4% regulation accuracy (voltage and current mode)
- Synchronous BOOST controller
- Programmable output voltage up to 65V
- BOOST and BUCK spread-spectrum for EMI mitigation
- BUCK switch thermal protection
- UART serial communication
- Internal oscillator for system clock
- LMM compatible
- Internal EEPROM
- Default settings
- Customer calibration data
2 Applications
3 Description
The TPS92544-Q1 device contains a synchronous BOOST controller and a monolithic synchronous buck LED driver with a wide 4.5V to 65V operating BUCK input voltage range.
The synchronous BOOST controller implements a peak current-mode controller to operate in constant voltage mode. The output voltage can be programmed using a programmable 8-bit DAC.
The monolithic synchronous BUCK implements an adaptive on-time average current mode control and is designed to generate constant voltage (CV) or constant current (CC) output. In the CC mode, the BUCK is compatible with shunt FET dimming techniques and LED matrix manager-based dynamic beam headlamps. In CV mode, the adaptive on-time control enables high bandwidth operation with fast transient response. The adaptive on-time control provides near constant switching frequency that can be set between 100kHz and 1.0MHz. Inductor current sensing and closed-loop feedback enable better than ±4% accuracy over wide input voltage, output voltage and ambient temperature range. In CC mode, the BUCK can independently modulate LED current using both analog or PWM dimming techniques.
The TPS92544-Q1 incorporates features to implement a trapezoidal motion profile allowing for a simple operation of the stepper motor functionality.The TPS92544-Q1 includes an internal oscillator. The UART serial interface is compatible with TPS9266x, and TPS9254x devices. The internal EEPROM can store system defaults as well as calibration and lighting module data. The seven configurable MPIOs and DIOs can be set as digital inputs or outputs, or ADC inputs for applications with system temperature compensation, LED binning and coding, etc.
The TPS92544-Q1 is available in a 7.0mm × 7.0mm thermally-enhanced 48-pin HTQFP package with top-exposed pad.
| PART NUMBER(1) | PACKAGE | BODY SIZE (NOM) |
|---|---|---|
| TPS92544-Q1 | PKD (HTQFP, 48) | 7.0mm × 7.0mm |
Simplified Schematic4 Pin Configuration and Functions
Figure 4-1 PKD Package48-Pin HTQFP (Top-Exposed PAD)Top View| PIN | I/O | DESCRIPTION | |
|---|---|---|---|
| NAME | NO. | ||
| PKD | |||
| BOOTBCK | 19 | P | Supply input for BUCK high-side MOSFET gate drive circuit. Connect a ceramic capacitor between BOOTBCK and SWBCK pins. An internal diode is connected between VDD and BOOTBCK. |
| BOOTBST | 33 | P | Supply input for BOOST high-side MOSFET gate drive circuit. Connect a ceramic capacitor between BOOTBST and SWBST pins. An internal diode is connected between VDD and BOOTBST. |
| CMPBCK | 25 | I/O | Output of BUCK internal transconductance error amplifier. Connect an integral compensation network to ensure stability. |
| CMPBST | 41 | I/O | Output of BOOST internal transconductance error amplifier. Connect a proportional-integral compensation network to ensure stability. |
| CSN | 24 | I | Negative input (–) of internal rail-to-rail transconductance error amplifier. Connect directly to the negative node of the LED current sense resistor, RCS. |
| CSP | 23 | I | Positive input (+) of internal rail-to-rail transconductance error amplifier. Connect directly to the positive node of the LED current sense resistor, RCS. |
| DIO0 | 6 | I/O | Digital IO. The pin can be configured as digital input, or digital output. |
| DIO1 | 8 | I/O | |
| EN | 45 | I | Hardware enable. Pull this pin low to enter shutdown. |
| GND | 43 | G | Signal and analog ground. Return for the internal voltage reference and analog circuits. Connect to circuit ground to complete return path. |
| GNDA | 40 | ||
| HGBST | 31 | I/O | BOOST high side gate driver output. |
| ISN | 37 | O | Negative input (–) of BOOST current sense amplifier. Connect directly to the current sense resistor, RIS. |
| ISP | 38 | I | Positive input (+) of BOOST current sense amplifier. Connect directly to the current sense resistor, RIS. |
| LGBST | 36 | I/O | BOOST low side gate driver output. |
| MPIO0 | 48 | I/O | Multi-purpose IO. The pin can be configured as an ADC input, digital input, or digital output. MPIO0 is used to enter CTM. |
| MPIO1 | 1 | I/O | Multi-purpose IO. The pin can be configured as an ADC input, digital input, or digital output. |
| MPIO2 | 2 | I/O | |
| MPIO3 | 3 | I/O | |
| MPIO4 | 4 | I/O | |
| NC1, NC2, NC3, NC4, NC5, NC6, NC7, NC8, NC9, NC10, NC11, NC12, NC13, NC14, NC15, NC16, NC17 | 5, 7, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 22, 27, 30, 34, 39 | NC | Do not connect. Can be connected to ground. |
| PGNDBCK | 26 | G | Ground return for BUCK low-side MOSFET |
| PGNDBST | 35 | G | Ground return for BOOST high-side gate driver |
| RX | 47 | I | UART receive data input. Connect to RX of CAN transceiver. |
| SWBCK | 20, 21 | P | Switching output of the BUCK regulator. Internally connected to both power MOSFETs. Connect to the power inductor. |
| SWBST | 32 | P | Switch node of the BOOST controller. |
| TX | 46 | O | UART transmit data output. Connect to TX of CAN transceiver. |
| VBCK | 29 | P | Power inputs and connections to BUCK high-side MOSFET drain node. Connect to the BOOST output voltage and bypass capacitors CIN. The path from the VBCK pin to high frequency bypass CIN and PGND must be as short as possible. |
| VBCKA | 28 | P | Power to internal analog block of BUCK regulator. Connect to VBCK pin and high frequency bypass capacitor. |
| VDD | 44 | P | Digital input supply voltage. Locally decouple to GND using a 2.2µF to 4.7µF ceramic capacitor located close to the device. |
| VDDA | 42 | P | Analog input supply voltage. Locally decouple to GND using a 100nF to 1µF ceramic capacitor located close to the device. |
5 Revision History
| DATE | REVISION | NOTES |
|---|---|---|
| March 2025 | * | Initial Release |