IC-GF Datasheet, PDF(7/26 Page) IC-Haus GmbH

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IC-GF Datasheet, PDF (7/26 Pages) IC-Haus GmbH – TRANSCEIVER

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iC-GF

TRANSCEIVER

Rev C1, Page 7/26

ELECTRICAL CHARACTERISTICS

Operating Conditions: VBO = 9...30 V (referenced to VN), Tj = -40...125 Â°C, RSET = 6.8 kâ¦ Â±1%, unless otherwise stated

Item Symbol Parameter

No.

Conditions

Min. Typ. Max.

Total Device

001 VBO

Permissible Supply Voltage

Referenced to VN

002 I(VBO) Supply Current in VBO

No load, VH conected to VBR,

4.5

I(QP1) = I(QP2) = 0, QPx switched on

003 Vs(VBR) Saturation Voltage at VBR

I(VBR) = 20mA

0.8

referenced to VBO

I(VBR) = 50mA

004 VH

Permissible Voltage at VH

VH > VHnr

8.4

005 I(VH)

Supply Current in VH

VH = 8 V, no load, I(VCC) = I(VCC3) = 0,

1.5

V(OEN) = hi

006 Vc()hi

Clamp Voltage hi at VBO, VBR I() = 10 mA

vs. VN

007 Vc()lo

Clamp Voltage lo at VBO, VBR I() = -10 mA

-36

vs. VN

008 Vc()hi

Clamp Voltage hi at QN1, QN2 I() = 1 mA, VBO > VN

vs. VN

009 Vc()lo

Clamp Voltage lo at QP1, QP2 I() = -1 mA, VBO > VN

-36

vs. VBO

010 Vc()hi

Clamp Voltage hi at VN, VBO, I() = 1 mA

VBR, QP1, QN1, QP2, QN1, CFI,

VH, VHL vs. lowest voltage of

VN, VBO, VBR, QP1, QN1, QP2,

QN1, CFI, VH, VHL

011 Vc()hi

Clamp Voltage hi at VCC, VCC3, I() = 1 mA

ISET, INV1, IN1, IN2, QCFG1,

QCFG2, OEN, CFO, CFP, NOVL,

NUVD

012 Vc()lo

Clamp Voltage lo at VCC, VCC3, I() = -1 mA

-0.5

ISET, INV1, IN1, IN2, QCFG1,

QCFG2, OEN, CFO, CFP, NOVL,

NUVD

013 RGND Resistance GND to VN

Low-Side Switch QN1, QN2

101 Vs()lo

Saturation Voltage lo at QN1, RSET = 5.1 kâ¦;

QN2 vs. VN

I() = 100 mA

1.2

I() = 50 mA

0.65

I() = 10 mA

0.3

102 Isc()lo

Short-Circuit Current lo in QN1, RSET = 6.8 kâ¦, V() = 3 V...VBO

QN2

RSET = 5.1 kâ¦, V() = 4 V...VBO

100 140 180

160 200 260

103 Vol()on Overload Detection Threshold on QN1, QN2 lo â hi; referenced to GND

1.5

2.1

104 Vol()off Overload Detection Threshold off QN1, QN2 hi â lo; referenced to GND

1.5

1.8

105 Vol()hys Overload Detection Threshold Vol()hys = Vol()on â Vol()off

0.1

Hysteresis

106 llk()

Leakage Current at QN1, QN2

OEN = lo;

V(QN1, QN2) = VBO...VBO + 6 V

V(QN1, QN2) = 0...VBO

V(QN1, QN2) = -6...0 V

V(QN1, QN2) = VBO â 36 V...-6 V

-70

-200

107 SR()

Slew Rate (switch off â on)

VBO = 30 V, Cl = 2.2 nF

108 Imax()

Maximum Current in QN1, QN2 V(ISET) = 0 V, QNx > 3 V

170 300 440

109 Ir()

Reverse Current in QN1, QN2 QNx activated; V(QNx) = -6 V

-300

110 Iexc()

Excitation Current

NEXC = 0 (see Fig. 9)

300

540

111 texc

Excitation Time

NEXC = 0 (see Fig. 9)

1.5

3.5

112 tdead

Dead Time

Push-pull conï¬guration, QNx activation delay

1.2

2.8

after QPx deactivation (see Fig. 9)

Unit

â¦

ÂµA

V/Âµs

ÂµA

Âµs

▷