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| 型號(hào): | TPS2552DBV-1 |
| 廠商: | TEXAS INSTRUMENTS INC |
| 元件分類: | 電源管理 |
| 英文描述: | 1-CHANNEL POWER SUPPLY SUPPORT CKT, PDSO6 |
| 封裝: | PLASTIC, SOT-23, 6 PIN |
| 文件頁(yè)數(shù): | 8/32頁(yè) |
| 文件大小: | 2005K |
| 代理商: | TPS2552DBV-1 |
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ACCOUNTING FOR RESISTOR TOLERANCE
CONSTANT-CURRENT VS. LATCH-OFF OPERATION AND IMPACT ON OUTPUT VOLTAGE
SLVS841C – NOVEMBER 2008 – REVISED SEPTEMBER 2009...................................................................................................................................... www.ti.com
The previous sections described the selection of RILIM given certain application requirements and the importance
of understanding the current-limit threshold tolerance. The analysis focussed only on the TPS2552/53 and
TPS2552-1/53-1 performance and assumed an exact resistor value. However, resistors sold in quantity are not
exact and are bounded by an upper and lower tolerance centered around a nominal resistance. The additional
RILIM resistance tolerance directly affects the current-limit threshold accuracy at a system level. The following
table shows a process that accounts for worst-case resistor tolerance assuming 1% resistor values. Step one
follows the selection process outlined in the application examples above. Step two determines the upper and
lower resistance bounds of the selected resistor. Step three uses the upper and lower resistor bounds in the IOS
equations to calculate the threshold limits. It is important to use tighter tolerance resistors, e.g. 0.5% or 0.1%,
when precision current limiting is desired.
Table 1. Common RILIM Resistor Selections
Resistor Tolerance
Actual Limits
Ideal
Closest 1%
Desired Nominal
Resistor
IOS MIN
IOS Nom
IOS MAX
Current Limit (mA)
1% low (k
)
1% high (k
)
(k
)
(k
)
(mA)
75
SHORT ILIM to IN
50.0
75.0
100.0
120
226.1
226
223.7
228.3
101.3
120.0
142.1
200
134.0
133
131.7
134.3
173.7
201.5
233.9
300
88.5
88.7
87.8
89.6
262.1
299.4
342.3
400
65.9
66.5
65.8
67.2
351.2
396.7
448.7
500
52.5
52.3
51.8
52.8
448.3
501.6
562.4
600
43.5
43.2
42.8
43.6
544.3
604.6
673.1
700
37.2
37.4
37.0
37.8
630.2
696.0
770.8
800
32.4
32.1
32.7
729.1
800.8
882.1
900
28.7
28.4
29.0
824.7
901.5
988.7
1000
25.8
26.1
25.8
26.4
908.3
989.1
1081.0
1100
23.4
23.2
23.0
23.4
1023.7
1109.7
1207.5
1200
21.4
21.5
21.3
21.7
1106.0
1195.4
1297.1
1300
19.7
19.6
19.4
19.8
1215.1
1308.5
1414.9
1400
18.3
18.2
18.0
18.4
1310.1
1406.7
1517.0
1500
17.0
16.9
16.7
17.1
1412.5
1512.4
1626.4
1600
16.0
15.8
15.6
16.0
1512.5
1615.2
1732.7
1700
15.0
14.9
15.2
1594.5
1699.3
1819.4
Both the constant-current devices (TPS2552/53) and latch-off devices (TPS2552-1/53-1) operate identically
during normal operation, i.e. the load current is less than the current-limit threshold and the devices are not
limiting current. During normal operation the N-channel MOSFET is fully enhanced, and VOUT = VIN - (IOUT x
rDS(on)). The voltage drop across the MOSFET is relatively small compared to VIN, and VOUT ≈ VIN.
Both the constant-current devices (TPS2552/53) and latch-off devices (TPS2552-1/53-1) operate identically
during the initial onset of an overcurrent event. Both devices limit current to the programmed current-limit
threshold set by RILIM by operating the N-channel MOSFET in the linear mode. During current-limit operation, the
N-channel MOSFET is no longer fully-enhanced and the resistance of the device increases. This allows the
device to effectively regulate the current to the current-limit threshold. The effect of increasing the resistance of
the MOSFET is that the voltage drop across the device is no longer negligible (VIN ≠ VOUT), and VOUT decreases.
The amount that VOUT decreases is proportional to the magnitude of the overload condition. The expected VOUT
can be calculated by IOS × RLOAD, where IOS is the current-limit threshold and RLOAD is the magnitude of the
overload condition. For example, if IOS is programmed to 1 A and a 1 overload condition is applied, the
resulting VOUT is 1 V.
16
Copyright 2008–2009, Texas Instruments Incorporated
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