Datasheet
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Table of Graphs
1 2 3 4 5
t − Time − ms
0
V
O(/OC)
2 V/div
I
O(xVPP)
2 A/div
100 200 300 400 500
t − Time − µs
0
V
O(/OC)
5 V/div
I
O(VCC)
5 A/div
V
IN(5V)
2 V/div
TPS2220A , TPS2223A
TPS2224A , TPS2226A
SLVS428E – MAY 2002 – REVISED MSRCH 2008
PARAMETER MEASUREMENT INFORMATION (continued)
FIGURE
Short-circuit response, short applied to powered-on 5-V xVCC-switch output vs Time 3
Short-circuit response, short applied to powered-on 12-V xVPP-switch output vs Time 4
OC response with ramped overcurrent-limit load on 5-V xVCC-switch output vs Time 5
OC response with ramped overcurrent-limit load on 12-V xVPP-switch output vs Time 6
xVCC Turnon propagation delay time
L
= 150 µ F) vs Junction temperature 7
xVCC Turnoff propagation delay time
L
= 150 µ F) vs Junction temperature 8
xVPP Turnon propagation delay time
L
= 10 µ F) vs Junction temperature 9
xVPP Turnoff propagation delay time
L
= 10 µ F) vs Junction temperature 10
xVCC Turnon propagation delay time (T
J
= 25 ° C) vs Load capacitance 11
xVCC Turnoff propagation delay time (T
J
= 25 ° C) vs Load capacitance 12
xVPP Turnon propagation delay time (T
J
= 25 ° C) vs Load capacitance 13
xVPP Turnoff propagation delay time (T
J
= 25 ° C) vs Load capacitance 14
xVCC Rise time
L
= 150 µ F) vs Junction temperature 15
xVCC Fall time
L
= 150 µ F) vs Junction temperature 16
xVPP Rise time
L
= 10 µ F) vs Junction temperature 17
xVPP Fall time
L
= 10 µ F) vs Junction temperature 18
xVCC Rise time (T
J
= 25 ° C) vs Load capacitance 19
xVCC Fall time (T
J
= 25 ° C) vs Load capacitance 20
xVPP Rise time (T
J
= 25 ° C) vs Load capacitance 21
xVPP Fall time (T
J
= 25 ° C) vs Load capacitance 22
SHORT-CIRCUIT RESPONSE, SHORT-CIRCUIT RESPONSE,
SHORT APPLIED TO POWERED-ON 5-V SHORT APPLIED TO POWERED-ON 12-V
xVCC-SWITCH OUTPUT xVPP-SWITCH OUTPUT
Figure 3. Figure 4.
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