SLUSFE4 Data sheet

SLUSFE4A January 2024 – June 2024 UCC21330

PRODUCTION DATA

Package Options

Refer to the PDF data sheet for device specific package drawings

Mechanical Data (Package|Pins)

D|16

Thermal pad, mechanical data (Package|Pins)

Orderable Information

5.9 Switching Characteristics

V_VCCI = 3.3 V or 5.0 V, 0.1-µF capacitance from VCCI to GND, V_VDDx = 12V (for 5V and 8V UVLO) or 15V (for 12V UVLO) , 1-µF+100-nF capacitance from VDDA and VDDB to VSSA and VSSB, DT pin floating, EN = VCC or DIS = GND, T_J = –40°C to +150°C, C_L = 0 pF, unless otherwise noted

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
t_RISE	Output Rise Time	C_L=1.8nF, VDDx=12V, 20% to 80%		8		ns
t_RISE	Output Rise Time	C_L=1.8nF, VDDx=25V, 20% to 80%		8		ns
t_FALL	Output Fall Time	C_L=1.8nF, VDDx=12V, 10% to 90%		8		ns
t_FALL	Output Fall Time	C_L=1.8nF, VDDx=25V, 10% to 90%		8		ns
t_PDLH	Propagation Delay – Low to High	Input Pulse Width = 100ns, 500kHz, measure with Input VIH to output 10%	26	33	45	ns
t_PDHL	Propagation Delay – High to Low	Input Pulse Width = 100ns, 500kHz, measure with Input VIL to output 90%	26	33	45	ns
t_{PD_DIS_HL}	DIS Response Delay – High to Low	t_{EN/DIS_FIL} = 20 ns (typ), VDD=VDD_ON+0.2V and above, Input Pulse Width = 100ns, 500kHz	27	48	80	ns
t_{PD_DIS_LH}	DIS Response Delay – Low to High		27	48	80	ns
t_PWmin	Minimum Input Pulse Width That Passes to Output	VDD=VDD_ON+0.2V and above	4	12	30	ns
t_DM	Propagation Delay Matching for Dual Channel Driver	Input Pulse Width = 100ns, 500kHz, T_J= –40°C to -10°C \|t_PDLHA – t_PDLHB\|, \|t_PDHLA – t_PDHLB\|	0		6.5	ns
t_DM	Propagation Delay Matching for Dual Channel Driver	Input Pulse Width = 100ns, 500kHz, T_J= –10°C to +150°C \|t_PDLHA – t_PDLHB\|, \|t_PDHLA – t_PDHLB\|	0		5	ns
t_PWD	Pulse Width Distortion	Input Pulse Width = 100ns, 500kHz \|t_PDLHA – t_PDHLA\|, \|t_PDLHB– t_PDHLB\|	0		5	ns
\|CM_H\|	High-level Common Mode Transient Immunity	V_CM = 1500V	125			V/ns
\|CM_L\|	Low-level Common Mode Transient Immunity	V_CM = 1500V	125			V/ns