米6体育平台手机版

ZHCSLS0B July 2022 – April 2024 TPS929240-Q1

PRODUCTION DATA

封装选项

请参考 PDF 数据表获取器件具体的封装图。

机械数据 (封装 | 引脚)

DCP|38

散热焊盘机械数据 (封装 | 引脚)

DCP|38
- PPTD170A

订购信息

5.5 Electrical Characteristics

T_J= –40°C to 150°C, V_(VBAT) = 4.5-40 V, V_(SUPPLY) = 4-36 V, for digital outputs, C_(LOAD) = 20 pF, (unless otherwise noted).

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
BIAS
V_(VBAT)	Operating input voltage		4.5	12	40	V
I_Q(VBAT)	Quiescent current, all-channels-off, VBAT pin	V_(VBAT) = 12V, R_(REF) = 8.45kΩ, REFRANGE = 11b, all-output OFF		1.6	2.0	mA
I_Q(VBAT)	Quiescent current, all-channels-on, VBAT pin	V_(VBAT) = 12V, R_(REF) = 8.45kΩ, REFRANGE = 11b, PWMOUTXn = 0, all-output ON		2.8	4.0	mA
I_Q(SUPPLY)	Quiescent current, all-channels-off, SUPPLY pin	V_(VBAT) = 12V, V_(SUPPLY) = 12V, R_(REF) = 8.45kΩ, REFRANGE = 11b, all-output OFF		4.9	10	µA
I_Q(SUPPLY)	Quiescent current, all-channels-on, SUPPLY pin	V_(VBAT) = 12V, V_(SUPPLY) = 12V, R_(REF) = 8.45kΩ, REFRANGE = 11b, PWMOUTXn = 0, all-output ON		5.2	8.0	mA
I_FAULT(VBAT)	Quiescent current, fail-safe state fault mode, VBAT pin	V_(VBAT) = 12V, V_(SUPPLY) = 12V, fail-safe state, all-output OFF, ERR = LOW		1.3	2.0	mA
I_{FAULT(SUPPLY)}	Quiescent current, fail-safe state fault mode, SUPPLY pin	V_(VBAT) = 12V, V_(SUPPLY) = 12V, fail-safe state, all-output OFF, ERR = LOW		5	10	µA
I_LKG(SUPPLY)	Supply leakage current	V_(SUPPLY) = 36V, V_(VBAT) = 0V		0.08	5	µA
V_{(POR_rising)}	Power-on-reset rising threshold		4	4.2	4.4	V
V_{(POR_falling)}	Power-on-reset falling threshold		3.8	4	4.2	V
V_(LDO)	LDO output voltage	V_(VBAT) > 5.6V, I_(LDO) = 80mA	4.75	5	5.25	V
I_(LDO)	LDO output current capability				80	mA
I_{(LDO_LIMIT)}	LDO output current limit		110			mA
V_{(LDO_DROP)}	LDO maximum dropout voltage	I_(LDO) = 80mA		0.5	0.9	V
V_{(LDO_DROP)}	LDO maximum dropout voltage	I_(LDO) = 50mA		0.3	0.6	V
V_{(LDO_POR_rising)}	LDO power-on-reset rising threshold		2.75	3.00	3.25	V
V_{(LDO_POR_falling)}	LDO power-on-reset falling threshold		2.5	2.75	3	V
C_(LDO)	Supported LDO loading capacitance range		1		10	µF
f_(OSC)	Internal oscillator frequency		-2.5%	32.15	+2.5%	MHz
ERR
V_IL(ERR)	Input logic low voltage, ERR		1.045	1.1	1.155	V
V_IH(ERR)	Input logic high voltage, ERR		1.14	1.2	1.26	V
I_PD(ERR)	ERR pull-down current capability	V_(ERR) = 0.4V	3	5	9	mA
I_LKG(ERR)	ERR leakage current			0.02	1	µA
FLEXWIRE INTERFACE
V_IL(RX)	Input logic low voltage, RX				0.7	V
V_IH(RX)	Input logic high voltage, RX		2			V
V_OL(TX)	Low-level output voltage, TX	I_sink = 5mA,	0	0.04	0.3	V
V_OH(TX)	High-level output voltage, TX	I_source = 5mA, V_pull-up = 5V	4.7	4.9	5.0	V
I_lkg	TX, RX		–1		1	µA
ADDRESS, FS
V_IL(ADDR)	Input logic low voltage, ADDR2, ADDR1, ADDR0				0.7	V
V_IH(ADDR)	Input logic high voltage, ADDR2, ADDR1, ADDR0		2			V
V_IL(IO)	Input logic low voltage FS1, FS0		1.045	1.1	1.155	V
V_IH(IO)	Input logic high voltage, FS1, FS0		1.14	1.2	1.26	V
R_PD(ADDR)	Internal pull down resistance, ADDR2, ADDR1, ADDR0		200	240	300	kΩ
ADC
DNL	Differential nonlinearity		–1⁽¹⁾		1⁽¹⁾	LSB
INL	Integral nonlinearity		–2⁽¹⁾		2⁽¹⁾	LSB
OUTPUT DRIVERS
f_{(PWM_200)}		200Hz selection		200		Hz
f_{(PWM_1000)}		1kHz selection		1000		Hz
ΔI_{(OUT_d2d)}	Device-to-device accuracy ΔI_{(OUT_d2d)} = 1- I_avg(OUT) / I_ideal(OUT)	R_(REF)= 8.45kOhm, REFRANGE = 11b, DC = 63	–5	0	5	%
		R_(REF) = 8.45kΩ, REFRANGE = 10b, DC = 63	–5	0	5
		R_(REF) = 8.45kΩ, REFRANGE = 01b, DC = 63	–5	0	5
		R_(REF) = 8.45kΩ, REFRANGE = 00b, DC = 63	–5	0	5
ΔI_{(OUT_c2c)}	Channel-to-channel accuracy ΔI_{(OUT_c2c)} = 1- I_(OUTx) / I_avg(OUT)	R_(REF) = 8.45kΩ, REFRANGE = 11b, DC = 63	–3	0	3	%
		R_(REF) = 8.45kΩ, REFRANGE = 10b, DC = 31	–3	0	3
		R_(REF) = 8.45kΩ, REFRANGE = 01b, DC = 15	–5	0	5
		R_(REF) = 31.6kΩ, REFRANGE = 01b, DC = 12	–7	0	7
I_{(OUT_100mA)}		R_(REF) = 6.34kΩ, REFRANGE = 11b, DC = 63		100		mA
I_{(OUT_75mA)}		R_(REF) = 8.45kΩ, REFRANGE = 11b, DC = 63		75		mA
I_{(OUT_50mA)}		R_(REF) = 12.7kΩ, REFRANGE = 11b, DC = 63		50		mA
I_{(OUT_20mA)}		R_(REF) = 31.6kΩ, REFRANGE = 11b, DC = 63		20		mA
I_{(OUT_1mA)}		R_(REF) = 31.6kΩ, REFRANGE = 01b, DC = 12		1		mA
V_{(OUT_drop)}	Output dropout voltage	R_(REF)= 8.45kΩ, REFRANGE = 11b, DC = 38, I_(OUTx) = 45mA		450	700	mV
		R_(REF)= 8.45kΩ, REFRANGE = 11b, DC = 63, I_(OUTx) = 75mA		600	1000	mV
		R_(REF)= 6.34kΩ, REFRANGE = 11b, DC = 63, I_(OUTx) = 100mA		750	1200	mV
R_(REF)			1		50	kΩ
C_(REF)			0		4.7	nF
V_(REF)			1.228	1.235	1.242	V
K_{(REF_11)}		REFRANGE = 11b		512
K_{(REF_10)}		REFRANGE = 10b		256
K_{(REF_01)}		REFRANGE = 01b		128
K_{(REF_00)}		REFRANGE = 00b		64
I_{(REF_OPEN_th)}			7	8.5	10	µA
I_{(REF_OPEN_th_hyst)}				4		uA
V_{(REF_SHORT_th)}			0.54	0.565	0.59	V
DIAGNOSTICS
V_{(SUPUV_th_rising)}	SUPPLY undervoltage rising threshold		2.73	2.875	3.02	V
V_{(SUPUV_th_falling)}	SUPPLY undervoltage falling threshold		2.49	2.625	2.76	V
V_{(SUPUV_th_hyst)}	SUPPLY undervoltage hysteresis			250		mV
V_{(SUPLOW_th_rising)}	SUPPLY low rising threshold, LOWSUPTH = 0		4.05	4.25	4.45	V
V_{(SUPLOW_th_falling)}	SUPPLY low falling threshold, LOWSUPTH = 0		3.8	4.0	4.2	V
V_{(SUPLOW_th_hyst)}	SUPPLY low hysteresis, LOWSUPTH = 0			250		mV
V_{(OPEN_th_rising)}	LED open rising threshold	V_(SUPPLY) - V_(OUTx)	200	400	600	mV
V_{(OPEN_th_falling)}	LED open falling threshold	V_(SUPPLY) - V_(OUTx)	300	500	700	mV
V_{(OPEN_th_hyst)}				100		mV
V_{(SG_th_rising)}	Short-to-ground rising threshold		0.8	0.9	1	V
V_{(SG_th_falling)}	Short-to-ground falling threshold		1.1	1.2	1.3	V
V_{(SG_th_hyst)}	Short-to-ground hysteresis			0.3		V
V_{(SLS_th_rising)}	Single-LED short rising threshold, SLSTHx = 0		2.35	2.5	2.65	V
V_{(SLS_th_falling)}	Single-LED short falling threshold, SLSTHx = 0		2.65	2.85	3.05	V
V_{(SLS_th_hyst)}	Single-LED short hysteresis, SLSTHx = 0			275		mV
EEPROM
N_(EEP)	Number of programming cycles	V_(VBAT) = 12V	1000
TEMPERATURE
T_(PRETSD)	Pre-thermal warning threshold			135		^oC
T_{(PRETSD_HYS)}	Pre-thermal warning hysteresis			5		^oC
T_(TSD1)	Over-temperature protection threshold		160	175	190	^oC
T_(TSD2)	Over-temperature shutdown threshold			185		^oC
T_{(TSD1_HYS)}	Over-temperature protection hysteresis			15		^oC
T_{(TSD2_HYS)}	Over-temperature shutdown hysteresis			15		^oC

(1) Specified by design only