TPS92692QPWPRQ1

High Accuracy LED Controller

The TPS92692QPWPRQ1 is a high accuracy led controller from Texas Instruments. View the full TPS92692QPWPRQ1 datasheet below including pinout, electrical characteristics, absolute maximum ratings.

Manufacturer

Texas Instruments

Overview

Part: TPS92692, TPS92692-Q1 — Texas Instruments

Type: High Accuracy LED Controller

Description: A high accuracy peak current mode based controller designed to support step-up/down LED driver topologies, featuring wide input voltage from 4.5 V to 65 V, better than ±4% LED current accuracy, and spread spectrum frequency modulation for improved EMI.

Operating Conditions:

Supply input voltage (VIN): 6.5–65 V (or 4.5 V for battery crank)
Operating ambient temperature: -40 to 125 °C
Switching frequency: 80–800 kHz

Absolute Maximum Ratings:

Max input voltage (VIN, CSP, CSN): 65 V
Max junction temperature: 150 °C
Max storage temperature: 165 °C

Key Specs:

Input stand-by current (IIN(STBY)): 1.8 mA (typ)
VCC regulation voltage (VCC(REG)): 7.0 V (min), 7.5 V (typ), 8.0 V (max)
VREF reference voltage: 4.77 V (min), 4.96 V (typ), 5.15 V (max)
Switching frequency (fSW) at RT = 20 kΩ: 341 kHz (min), 390 kHz (typ), 439 kHz (max)
Gate driver high side resistance (RGH): 5.4 Ω (typ)
Current limit threshold (VIS(LIMIT)): 230.6 mV (min), 250 mV (typ), 270 mV (max)
Maximum duty cycle (DMAX): 90% (typ)
Current sense amplifier gain (GCS): 14 (typ)

Features:

Better than ±4% LED Current Accuracy over -40°C to 150°C Junction Temperature Range
Spread Spectrum Frequency Modulation for Improved EMI
Comprehensive Fault Protection Circuitry with Current Monitor output and Open Drain Fault Flag Indicator
Internal Analog Voltage to PWM Duty Cycle Generator for stand-alone Dimming Operation
Compatible with Direct PWM Input with over 1000:1 Dimming Range
Analog LED Current Adjust Input (IADJ) with over 15:1 Contrast Ratio
Integrated P-Channel Driver to enable Series FET Dimming and LED Protection
TPS92692-Q1: Automotive Q100 Grade 1 Qualified

Applications:

Automotive Exterior Lighting Applications
Driver Monitoring Systems (DMS)
LED General Lighting Applications
Exit Signs and Emergency Lighting

Package:

HTSSOP (20) (5.10 mm × 6.60 mm)

Features

1 · Wide Input Voltage: 4.5 V to 65 V
Better than ± 4% LED Current Accuracy over -40°C to 150°C Junction Temperature Range
Spread Spectrum Frequency Modulation for Improved EMI
Comprehensive Fault Protection Circuitry with Current Monitor output and Open Drain Fault Flag Indicator
Internal Analog Voltage to PWM Duty Cycle Generator for stand-alone Dimming Operation
Compatible with Direct PWM Input with over 1000:1 Dimming Range
Analog LED Current Adjust Input (IADJ) with over 15:1 Contrast Ratio
Integrated P-Channel Driver to enable Series FET Dimming and LED Protection
TPS92692-Q1: Automotive Q100 Grade 1 Qualified

Applications

TPS92692-Q1: Automotive Exterior Lighting Applications
Driver Monitoring Systems (DMS)
LED General Lighting Applications
Exit Signs and Emergency Lighting

Pin Configuration

TPS92692QPWPRQ1 Pinout

Package: HTSSOP-20 (PWP with PowerPAD™)

Pin Number	Pin Name	Type	Description
1	VIN	P	Input supply voltage
2	VREF	P	Reference voltage output
3	FLT	O	Open-drain fault indicator. Connect to VREF with a resistor to create active low fault signal output.
4	SS	I	Soft-start input
5	DM	I/O	Triangle wave spread spectrum modulation frequency programming pin. Connect a capacitor to GND to set the spread spectrum modulating frequency. Connect directly to GND to disable spread spectrum modulation.
6	RT	I	Oscillator frequency programming pin
7	COMP	I/O	Transconductance error amplifier output. Connect compensation network to achieve desired closed-loop response.
8	IMON	O	LED current report pin. The LED current sensed by CSP/CSN input is reported as V_IMON = 14 × I_LED × R_CS. Bypass with a 1-nF ceramic capacitor connected to GND.
9	IADJ	I	LED current reference input. Connect this pin to VCC with a 100-kΩ series resistor to set the internal reference voltage to 2.42 V and the current sense threshold V_(CSP-CSN) to 170.7 mV.
10	DIM/PWM	I	External analog to PWM dimming command or direct PWM dimming input. The external analog dimming command between 1 V and 3 V is compared to the internal PWM generator triangle waveform to set LED current duty cycle between 0% and 100%.
11	RAMP	I	Ramp input
12	PDRV	O	Series dimming P-channel FET gate driver output. Connect to gate of external P-channel MOSFET to implement series FET PWM dimming and fault disconnect.
13	CSN	I	Current sense amplifier negative input (−). Connect directly to the negative node of LED current sense resistor R_CS.
14	CSP	I	Current sense amplifier positive input (+). Connect directly to the positive node of LED current sense resistor R_CS.
15	OV	I	Output voltage input. Connect a resistor divider from output voltage to GND to set output overvoltage and under-voltage protection thresholds.
16	ISLOPE	I	Current slope programming input
17	GND	P	Analog and Power ground connection pin. Connect to circuit ground to complete return path.
18	IS	I	Switch current sense input. Connect to the switch sense resistor R_IS to set the switch current limit threshold based on the internal 250 mV reference.
19	GATE	O	N-channel MOSFET gate driver output. Connect to gate of external main switching N-channel MOSFET.
20	VCC	P	Supply voltage for internal circuitry

Notes

Pin diagram shows a thermal pad in the center of the package (not numbered as a pin connection).
Pin 16 (ISLOPE) and Pin 11 (RAMP) are shown in the diagram but not detailed in the provided pin functions table; descriptions inferred from typical LED driver architecture.
Pin 4 (SS) is shown in the diagram but not detailed in the provided pin functions table.
Pin 6 (RT) is shown in the diagram but not detailed in the provided pin functions table.

Electrical Characteristics

-40°C ≤ TJ ≤ 150°C, VIN = 14 V, VIADJ = 2.1 V, VRAMP = 500 mV, VDIM/PWM = 3 V, VOV = 500 mV, CVCC = 1 μF, CVREF = 1 μF, CCOMP = 2.2 nF, RCS = 100 m Ω , RT = 20 k Ω , no load on GATE and PDRV (unless otherwise noted) (1)

PARAMETER	PARAMETER	TEST CONDITIONS	MIN	TYP	MAX	UNIT
INPUT VOLTAGE (VIN)	INPUT VOLTAGE (VIN)
I IN(STBY)	Input stand-by current	V PWM = 0 V		1.8	2.5	mA
I IN(SW)	Input switching current	V CC = 7.5 V, C GATE = 1 nF		5.1	6.6	mA
BIAS SUPPLY (VCC)	BIAS SUPPLY (VCC)
V CC(REG)	Regulation voltage	No load	7.0	7.5	8.0	V
		VCC rising threshold, V IN = 8 V		4.5	4.9	V
V CC(UVLO)	Supply undervoltage protection	VCC falling threshold, V IN = 8 V Hysteresis	3.7	4.1 400		V mV
I CC(LIMIT)	Supply current limit	V CC = 0 V	30	36	46	mA
V DO	LDO dropout voltage	I CC = 20 mA, V IN = 5 V		300		mV
REFERENCE VOLTAGE (VREF)	REFERENCE VOLTAGE (VREF)
VREF	Reference voltage	No load	4.77	4.96	5.15	V
I REF(LIMIT)	Current limit	V REF = 0 V	30	36	46	mA
OSCILLATOR (RT)	OSCILLATOR (RT)
		R T = 40 k Ω	175	200	225	kHz
ƒ SW	Switching frequency	R T = 20 k Ω	341	390	439	kHz
V RT	RT output voltage			1		V
	SYNC rising threshold	V RT rising		2.5	3.1	V
V SYNC	SYNC falling threshold	V RT falling	1.8	2		V
t SYNC(MIN)	Minimum SYNC clock pulse width			100		ns
SPREAD SPECTRUM FREQUENCY MODULATION (DM)	SPREAD SPECTRUM FREQUENCY MODULATION (DM) Triangle wave generator sink current	SPREAD SPECTRUM FREQUENCY MODULATION (DM)	SPREAD SPECTRUM FREQUENCY MODULATION (DM)	SPREAD SPECTRUM FREQUENCY MODULATION (DM) 10	SPREAD SPECTRUM FREQUENCY MODULATION (DM)	SPREAD SPECTRUM FREQUENCY MODULATION (DM) μA
I DM	Triangle wave generator source current Triangle wave voltage peak (High)			10 1.15		μA V
V DM(TR)	Triangle wave voltage valley (Low)			850		mV
V DM(EN)	Spread spectrum modulation enable threshold			700		mV
V DM(CLAMP)	Internal clamp voltage	V PWM = 0 V, R RAMP = 200 k Ω		1.25		V
GATE DRIVER (GATE)	GATE DRIVER (GATE)
R GH	Gate driver high side resistance	I GATE = -10 mA		5.4	11.2	Ω
R GL	Gate driver low side resistance	I GATE = 10 mA		4.3	10.5	Ω
CURRENT SENSE (IS)	CURRENT SENSE (IS)
V	Current limit threshold	V DIM/PWM = 5 V, R RAMP = 249 k Ω	230.6	250	270	mV
IS(LIMIT)		V DIM/PWM = 0 V, R RAMP = 249 k Ω	665	700	735	mV
t IS(BLANK)	Leading edge blanking time		88	118	158	ns
t IS(FAULT)	Current limit fault time			35		μs
t ILMT(DLY)	IS to GATE propagation delay	V IS pulsed from 0 V to 1 V		78		ns

Absolute Maximum Ratings

over operating free-air temperature range (unless otherwise noted) (1)(2)

		MIN	MAX	UNIT
Input voltage	VIN, CSP, CSN	-0.3	65	V
Input voltage	DIM/PWM	-0.3	14	V
Input voltage	IS, RT, FLT	-0.3	8.8	V
Input voltage	OV, SS, RAMP, DM, SLOPE, VREF, IADJ	-0.3	5.5	V
Input voltage	CSP to CSN (3)	-0.3	0.3	V
Output	VCC, GATE	-0.3	8.8	V
Output	PDRV	V CSP - 8.8	V CSP	V
Output	COMP	-0.3	5.0	V
Source	IMON	-	100	μA
Source	GATE (pulsed < 20 ns)	-	500	mA
Source	PDRV (pulsed < 10 μs)	-	50	mA
	GATE (pulsed < 20 ns)	-	500	mA
	PDRV (pulsed < 10 μs)	-	50	mA
Operating junction temperature, T J	Operating junction temperature, T J	-40	150	°C
Storage temperature, T stg	Storage temperature, T stg		165	°C

Recommended Operating Conditions

over operating free-air temperature range (unless otherwise noted)

		MIN	NOM	MAX	UNIT
VIN	Supply input voltage	6.5	14	65	V
VIN, crank	Supply input, battery crank voltage	4.5			V
V CSP , V CSN	Current sense common mode	6.5		60	V
ƒ SW	Switching frequency	80		800	kHz
ƒ m	Spread spectrum modulation frequency	0.1		12	kHz
f RAMP	Internal PWM ramp generator frequency	100		2000	Hz
V IADJ	Current reference voltage	0.14		V IADJ(CLAMP)	V
T A	Operating ambient temperature	-40		125	°C

Thermal Information

THERMAL METRIC	(1)	TPS92692 PWP (HTSSOP) 20 PINS	TPS92692-Q1 PWP (HTSSOP) 20 PINS	UNIT
R θ JA	Junction-to-ambient thermal resistance	40.8	40.8	°C/W
R θ JC(top)	Junction-to-case (top) thermal resistance	26.1	26.1	°C/W
R θ JB	Junction-to-board thermal resistance	22.2	22.2	°C/W
ψ JT	Junction-to-top characterization parameter	0.8	0.8	°C/W
ψ JB	Junction-to-board characterization parameter	22	22	°C/W
R θ JC(bot)	Junction-to-case (bottom) thermal resistance	2.3	2.3	°C/W

Typical Application

The TPS92692 and TPS92692-Q1 controllers are suitable for implementing step-up or step-down LED driver topologies including boost, buck-boost, SEPIC, and flyback. Use the following design procedure to select component values for the TPS92692-Q1 device. This section presents a simplified discussion of the design process for the boost and buck-boost converter. The expressions derived for the buck-boost topology can be altered to select components for a 1:1 coupled-inductor SEPIC converter. The design procedure can be easily adapted for flyback and similar converter topologies.

Figure 36. Boost LED Driver

Figure 37. Buck-Boost LED Driver

Figure 38. SEPIC LED Driver

Ordering Information

MPN	Package	Temperature Range	Packing
TPS92692-Q1	HTSSOP (20)	-40°C to 125°C	null
TPS92692	HTSSOP (20)	-40°C to 125°C	null

Related Variants

The following components are covered by the same datasheet.

Part Number	Manufacturer	Package
TPS92692	Texas Instruments	HTSSOP (20)
TPS92692-Q1	Texas Instruments	HTSSOP (20)
TPS92692PWPR	Texas Instruments	—
TPS92692PWPT	Texas Instruments	—

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