IR21592/IR21593(S) &(PbF)
Recommended Operating Conditions
For proper operation the device should be used within the recommended conditions.
Symbol
VBS
VS
VCC
ICC
VVCO
VDIM
VMAX
VMIN
VBSMIN
RFMIN
ISD
ICS
TJ
Definition
High side floating supply voltage
Steady state high side floating supply offset voltage
Supply voltage
Supply current
VCO pin voltage
DIM pin voltage
MAX pin current (note 3)
MIN pin voltage
Minimum required VBS voltage for proper HO functionality
Minimum frequency setting resistance
Shutdown pin current
Current sensing pin current
Junction temperature
Min.
VCC - 0.7
-1
VCCUV+
note 2
0
0.5
-750
1
—
10
-1
-1
-40
Max. Units
VCLAMP
600
V
VCLAMP (15.6)
10
mA
5
V
5.0
0
µA
3
V
5
100
kΩ
1
mA
1
125
oC
Note 2:
Note 3:
Enough current should be supplied into the VCC lead to keep the internal 15.6V zener clamp diode on this lead
regulating its voltage, VCLAMP.
The MAX lead is a voltage-controlled current source. For optimum dim interface current mirror performance,
this current should be kept between 0 and 750µA.
Electrical Characteristics
VCC = VBS = VBIAS = 14V +/- 0.25V, VCS = 0.5V, VSD = 0.0V, RFMIN = 40k, CVCO = 10 nF, VDIM = 0.0V, RMAX = 33k,
RMIN = 56k, VCPH = 0.0V, CLO,HO = 1000pF, TA = 25oC unless otherwise specified.
Symbol Definition
Min. Typ. Max. Units Test Conditions
Supply Characteristics
VCCUV+ VCC supply undervoltage positive going
12.0
12.5
13.0
threshold
V
VCCHYS VCC supply undervoltage lockout hysteresis 1.5
1.6
1.7
IQCCUV
IQCCFLT
UVLO mode quiescent current
Fault-mode quiescent current
70
200
330
VCC = 10V
—
240
—
µA
SD=5V, CS=2V, or
Tj > TSD
ICCFMIN VCC supply current @ FMIN (IR21592)
—
5.6
—
VVCO = 0V
ICCFMAX VCC supply current @ FMAX (IR21592)
—
6.0
—
mA
VVCO = 5V
ICCFMIN VCC supply current @ FMIN (IR21593)
—
5.4
—
ICCFMAX VCC supply current @ FMAX (IR21593)
—
6.8
—
VVCO = 0V
VVCO = 5V
VCLAMP VCC zener shunt clamp voltage
14.5
15.6
16.5
V
ICC = 10mA
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