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ACPL-337J Datasheet, PDF (6/18 Pages) AVAGO TECHNOLOGIES LIMITED – Rail-to-rail output voltage
Table 5. Electrical Specifications (DC)
Unless otherwise noted, all typical values at TA = 25 °C, VCC1 = 5 V, VCC2 – VEE2 = 30 V, VE – VEE2 = 0 V; all Minimum/
Maximum specifications are at Recommended Operating Conditions.
Parameter
Symbol Min. Typ.
Max. Units Test Conditions
Fig. Note
Logic Low Input Voltage
VIN+L
Logic High Input Voltage
VIN+H
2
Logic High LED Driver Output RDS(ON) RLEDDRVH 5.5
13.5
Logic Low LED Driver Output Voltage VLEDDRVL 0.2
0.4
Input Low Supply Current
ICC1L
3
Input High Supply Current
ICC1H
3
13
Output Low Supply Current
ICC2L
4.3
Output High Supply Current
ICC2H
5.4
LED Forward Voltage
VF
1.2
1.55
Temperature Coefficient of Input
ΔVF/ΔTA
-1.7
Forward Voltage
0.8 V
25
V
25
24 Ω
ILEDDRV = -10 mA, VIN+ = 5 V 25
0.8 V
ILEDDRV = 2.4 mA, VIN+ = 0 V 25
6
mA IF = 0 mA, VIN+ = 0 V
1
6
mA IF = 10 mA, VIN+=0 V
1
16 mA ILEDDRV = 10 mA , VIN+=5 V
6.5 mA IF = 0 mA
2, 3
7.5 mA IF = 10 mA
2, 3
1.95 V
IF =10 mA
4
mV/°C IF = 10 mA
LED Reverse Breakdown Voltage
VBR
Input Capacitance
CIN
LED Turn on Current Threshold Low ITH+
to High
5
70
0.25
2
V
IF = 10 µA
pF
6
mA VOUT = 5 V
LED Turn on Current Threshold High ITH-
to Low
0.15
1.5
5.5 mA VOUT = 5 V
LED Turn on Current Hysteresis
ITH_HYS
0.5
High Level Output Current
IOH
-3
-4.0
Low Level Output Current
IOL
3
3.5
High Output Transistor RDS(ON)
RDS,OH
0.5
2.3
Low Output Transistor RDS(ON)
RDS,OL
0.2
1.4
Low Level Output Current During IOLF
55
115
Fault Condition
mA
A
A
4.5 Ω
3.6 Ω
170 mA
VCC2 - VOUT =15 V
VOUT - VEE = 15 V
IOH = -3 A
IOL = 3 A
VOUT - VEE = 14 V
51
61
52
62
93
High Level Output Voltage
Low Level Output Voltage
Clamp Threshold Voltage
Clamp Low Level Sinking Current
Clamp Output Transistor RDS(ON)
VCC2 UVLO Threshold Low to High
VCC2 UVLO Threshold High to Low
VCC2 UVLO Hysteresis
DESAT Detection Threshold
DESAT Charging Current
DESAT Discharging Current
FAULT Logic Low Output Current
FAULT Logic High Output Current
UVLO Logic Low Output Current
UVLO Logic High Output Current
VOH
VCC2– 0.5 VCC2 – 0.15
V
VOL
0.1
0.5 V
VTH_CLAMP
2
3
V
ICLAMP
0.75
1.9
A
RDS,CLAMP
1.1
3.5 Ω
VUVLO+ 11
12.5
13.7 V
VUVLO-
10.1
11.3
12.8 V
VUVLO_HYS 0.4
1.2
V
VDESAT 6.2
7
7.8 V
ICHG
0.6
1.0
1.2 mA
IDSCHG
20
58
mA
IFAULT_L 4
9.0
mA
IFAULT_H
20 µA
IUVLO_L
4
9.0
mA
IUVLO_H
20 µA
IOUT = -100 mA
IOUT = 100 mA
VCLAMP = VEE + 2.5
ICLAMP = 1 A
VOUT > 5 V
VOUT < 5 V
VDESAT = 2 V
VDESAT = 8 V
VFAULT = 0.4 V
VFAULT = 5 V
VUVLO = 0.4 V
VUVLO = 5 V
7 4, 5, 6
8
4, 6, 7
4, 6, 8
10 6
11 6, 9
12
Notes:
1. Maximum pulse width = 10 μs.
2. Output is sourced at -3.0 A/3.0 A with a maximum pulse width = 10 μs.
3. For further details, see the description of operation during DESAT fault condition section in the application notes.
4. 15 V is the recommended minimum operating positive supply voltage (VCC2 – VE) to ensure adequate margin in excess of the maximum VUVLO+
threshold of 13.7 V. For High Level Output Voltage testing, VOH is measured with a DC load current. When driving capacitive loads, VOH will
approach VCC as IOH approaches zero.
5. Maximum pulse width = 1.0 ms.
6. Once VOUT of ACPL-337J is allowed to go High (VCC2 – VE > VUVLO+), the DESAT detection feature of the ACPL-337J will be
the primary source of IGBT protection. UVLO is needed to ensure DESAT is functional. Once VCC2 exceeds VUVLO+ threshold,
DESAT will remain functional until VCC2 is below VUVLO- threshold. Thus, the DESAT detection and UVLO features of the
ACPL-337J work in conjunction to ensure constant IGBT protection.
7. This is the “increasing” (i.e. turn-on or “positive going” direction) of VCC2 – VE.
8. This is the “decreasing” (i.e. turn-off or “negative going” direction) of VCC2 – VE.
9. For further details, see the DESAT fault detection blanking time section in the applications notes.
6