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ZHCSFZ1A January 2017 – July 2018 DRV8886

UNLESS OTHERWISE NOTED, this document contains PRODUCTION DATA.

封裝選項

機械數據 (封裝 | 引腳)

PWP|24
- MPDS372A
RHR|28
- MPQF243A

散熱焊盤機械數據 (封裝 | 引腳)

PWP|24
- PPTD111R
RHR|28
- QFND246D

訂購信息

6.5 Electrical Characteristics

at T_A = -40 to 125°C, V_VM = 8 to 37 V (unless otherwise noted)

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
POWER SUPPLIES (VM, DVDD, AVDD)
VVM	VM operating voltage		8		37	V
I_VM	VM operating supply current	ENABLE = 1, nSLEEP = 1, No motor load		5	8	mA
I_VMQ	VM sleep mode supply current	nSLEEP = 0; T_A = 25°C			20	μA
I_VMQ	VM sleep mode supply current	nSLEEP = 0; T_A = 125°C⁽¹⁾			40	μA
t_SLEEP	Sleep time	nSLEEP = 0 to sleep-mode		50	200	μs
t_WAKE	Wake-up time	nSLEEP = 1 to output transition		0.85	1.5	ms
t_ON	Turn-on time	VM > UVLO to output transition		0.85	1.5	ms
V_DVDD	Internal regulator voltage	0- to 1-mA external load	2.9	3.3	3.6	V
V_AVDD	Internal regulator voltage	No external load	4.5	5	5.5	V
CHARGE PUMP (VCP, CPH, CPL)
V_VCP	VCP operating voltage			VM + 5.5		V
LOGIC-LEVEL INPUTS (STEP, DIR, ENABLE, nSLEEP, M1)
V_IL	Input logic-low voltage		0		0.8	V
V_IH	Input logic-high voltage		1.6		5.3	V
V_HYS	Input logic hysteresis			200		mV
I_IL	Input logic-low current	VIN = 0 V	–1		1	μA
I_IH	Input logic-high current	VIN = 5 V			100	μA
R_PD	Pulldown resistance	To GND		100		kΩ
t_PD⁽¹⁾	Propagation delay	STEP to current change			1.2	μs
TRI-LEVEL INPUT (M0, TRQ)
V_IL	Tri-level input logic low voltage		0		0.65	V
V_IZ	Tri-level input Hi-Z voltage		0.95	1.1	1.25	V
V_IH	Tri-level input logic high voltage		1.5		5.3	V
I_IL	Tri-level input logic low current	VIN = 0 V	–90			μA
I_IH	Tri-level input logic high current	VIN = 5 V			155	μA
R_PD	Tri-level pulldown resistance	VIN = Hi-Z, to GND		65		kΩ
R_PU	Tri-level pullup resistance	VIN = Hi-Z, to DVDD		130		kΩ
QUAD-LEVEL INPUT (DECAY)
V_I1	Quad-level input voltage 1	Can set with 1% 5 kΩ to GND	0		0.14	V
V_I2	Quad-level input voltage 2	Can set with 1% 15 kΩ to GND	0.24		0.46	V
V_I3	Quad-level input voltage 3	Can set with 1% 44.2 kΩ to GND	0.71		1.24	V
V_I4	Quad-level input voltage 4	Can set with 1% 133 kΩ to GND	2.12		5.3	V
I_O	Output current	To GND	17	22	27.25	μA
CONTROL OUTPUTS (nFAULT)
V_OL	Output logic-low voltage	I_O = 1 mA, R_PULLUP = 4.7 kΩ			0.5	V
I_OH	Output logic-high leakage	V_O = 5 V, R_PULLUP = 4.7 kΩ	–1		1	μA
MOTOR DRIVER OUTPUTS (AOUT1, AOUT2, BOUT1, BOUT2)
R_DS(ON)	High-side FET on resistance	VM = 24 V, I = 1.4 A, T_A = 25°C		290	346	mΩ
R_DS(ON)	Low-side FET on resistance	VM = 24 V, I = 1.4 A, T_A = 25°C		260	320	mΩ
t_RISE⁽¹⁾	Output rise time			100		ns
t_FALL⁽¹⁾	Output fall time			100		ns
t_DEAD⁽¹⁾	Output dead time			200		ns
V_d⁽¹⁾	Body diode forward voltage	I_OUT = 0.5 A		0.7	1	V
PWM CURRENT CONTROL (RREF)
A_RREF	RREF transimpedance gain		28.1	30	31.9	kAΩ
V_RREF	RREF voltage	RREF = 18 to 132 kΩ	1.18	1.232	1.28	V
t_OFF	PWM off-time			20		μs
C_RREF	Equivalent capacitance on RREF				10	pF
t_BLANK	PWM blanking time	I_RREF = 2.0 A, 63% to 100% current setting		1.5		µs
t_BLANK	PWM blanking time	I_RREF = 2.0 A, 0% to 63% current setting		1		µs
ΔI_TRIP	Current trip accuracy	I_RREF = 1.5 A, 10% to 20% current setting, 1% reference resistor	–15%		15%
		I_RREF = 1.5 A, 20% to 63% current setting, 1% reference resistor	–10%		10%
		I_RREF = 1.5 A, 71% to 100% current setting, 1% reference resistor	–6.25%		6.25%
PROTECTION CIRCUITS
V_UVLO	VM UVLO	VM falling, UVLO report	7		7.8	V
V_UVLO	VM UVLO	VM rising, UVLO recovery	7.2		8	V
V_UVLO,HYS	Undervoltage hysteresis	Rising to falling threshold		200		mV
V_CPUV	Charge pump undervoltage	VCP falling; CPUV report		VM + 2		V
I_OCP	Overcurrent protection trip level	Current through any FET	3			A
t_OCP⁽¹⁾	Overcurrent deglitch time		1.3	1.9	2.8	μs
t_RETRY	Overcurrent retry time		1		1.6	ms
T_TSD⁽¹⁾	Thermal shutdown temperature	Die temperature T_J	150			°C
T_HYS⁽¹⁾	Thermal shutdown hysteresis	Die temperature T_J		20		°C

(1) Specified by design and characterization data