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LT1641-1/LT1641-2 Positive High Voltage Hot Swap Controllers
FEATURES

DESCRIPTIO
Allows Safe Board Insertion and Removal from a Live Backplane Controls Supply Voltage from 9V to 80V Programmable Analog Foldback Current Limiting High Side Drive for an External N-Channel Latched Operation Mode (LT1641-1) Automatic Retry (LT1641-2) User Programmable Supply Voltage Power-Up Rate Undervoltage Lockout Overvoltage Protection Both are available in 8-Lead SO Package
The LT(R)1641-1/LT1641-2 are 8-pin Hot SwapTM controllers that allow a board to be safely inserted and removed from a live backplane. Using an external N-channel pass transistor, the board supply voltage can be ramped up at a programmable rate. A high side switch driver controls an N-channel gate for supply voltages ranging from 9V to 80V. The chips feature a programmable analog foldback current limit circuit. If the chips remain in current limit for more than a programmable time, the N-channel pass transistor is either latched off (LT1641-1) or is set to automatically restart after a time-out delay (LT1641-2). The PWRGD output indicates when the output voltage, sensed by the FB pin, is within tolerance. The ON pin provides programmable undervoltage lockout. The LT1641-1/LT1641-2 are available in the 8-lead SO package.
, LT, LTC and LTM are registered trademarks of Linear Technology Corporation. All other trademarks are the property of their respective owners.
APPLICATIO S

Hot Board Insertion Electronic Circuit Breaker Industrial High Side Switch/Circuit Breaker 24V/48V Industrial/Alarm Systems
TYPICAL APPLICATIO
VIN 24V
24V Input Voltage Application
RS 0.01 Q1 IRF530 VOUT SHORT PIN R1 49.9k 1% R5 10 5% D1 CMPZ 5248B C1 R6, 10nF 1k, 5% R7 24k 5% FB LT1641-1/LT1641-2 R2 3.4k 1% TIMER C2 0.68F *DIODES, INC.
1641-1 TA01
R3 59k 1%
*SMAT70A
VCC ON
SENSE
GATE R4 3.57k 1%
PWRGD GND
GND
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CL PWRGD
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LT1641-1/LT1641-2
ABSOLUTE
(Note 1)
AXI U RATI GS
PACKAGE/ORDER I FOR ATIO
TOP VIEW ON 1 FB 2 PWRGD 3 GND 4 8 7 6 5 VCC SENSE GATE TIMER
Supply Voltage (VCC) ...............................- 0.3V to 100V Input Voltage (SENSE) .............................- 0.3V to 100V Input Voltage (TIMER) ...............................- 0.3V to 44V Input Voltage (FB, ON) ...............................- 0.3V to 60V Output Voltage (PWRGD) ........................- 0.3V to 100V Output Voltage (GATE) ............................- 0.3V to 100V Operating Temperature Range LT1641-1C, LT1641-2C ........................... 0C to 70C LT1641-1I, LT1641-2I ........................ - 40C to 85C Storage Temperature Range ................. - 65C to 150C Lead Temperature (Soldering, 10 sec).................. 300C
S8 PACKAGE 8-LEAD PLASTIC SO
TJMAX = 125C, JA = 110C/W
ORDER PART NUMBER LT1641-1CS8 LT1641-1IS8 LT1641-2CS8 LT1641-2IS8
S8 PART MARKING 16411 16411I 16412 16412I
Order Options Tape and Reel: Add #TR Lead Free: Add #PBF Lead Free Tape and Reel: Add #TRPBF Lead Free Part Marking: http://www.linear.com/leadfree/ Consult LTC Marketing for parts specified with wider operating temperature ranges.
The denotes the specifications which apply over the full operating temperature range, otherwise specifications are at TA = 25C. Vcc = 24V
SYMBOL VCC ICC VLKO VFBH VFBL VFBHST IINFB VFB VSENSETRIP IGATEUP IGATEDN VGATE ITIMERUP ITIMERON VONH VONL VONHYST IINON VOL IOH PARAMETER VCC Operating Range VCC Supply Current VCC Undervoltage Lockout FB Pin High Voltage Threshold FB Pin Low Voltage Threshold FB Pin Hysteresis Voltage FB Pin Input Current FB Pin Threshold Line Regulation SENSE Pin Trip Voltage (VCC - VSENSE) GATE Pin Pull-Up Current GATE Pin Pull-Down Current External N-Channel Gate Drive TIMER Pin Pull-Up Current TIMER Pin Pull-Down Current ON Pin High Threshold ON Pin Low Threshold ON Pin Hysteresis ON Pin Input Current PWRGD Output Low Voltage PWRGD Pin Leakage Current VON = GND IO = 2mA IO = 4mA VPWRGD = 80V

DC ELECTRICAL CHARACTERISTICS
CONDITIONS
MIN 9

TYP 2
MAX 80 5.5 8.8 1.345 1.245 -1
UNITS V mA V V V mV A mV/V mV mV A mA V V A A V V mV A V V A
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ON = 3V FB Low to High Transition FB High to Low Transition VFB = GND 9V VCC 80V VFB = 0V VFB = 1V Charge Pump On, VGATE = 7V Any Fault Condition, VGATE = 2V VGATE - VCC, VCC = 10.8V to 20V VCC = 20V to 80V VTIMER = 0V VTIMER = 1V ON Low to High Transition ON High to Low Transition
7.5 1.280 1.221
8.3 1.313 1.233 80

0.05 8 39 -5 35 4.5 10 - 24 1.5 1.280 1.221 - 80 3 1.313 1.233 80 -1 0.4 2.5 10 12 47 - 10 70 17 55 - 20 100 18 18 - 132 5 1.345 1.245
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LT1641-1/LT1641-2
AC ELECTRICAL CHARACTERISTICS
SYMBOL tPHLON tPLHON tPHLFB tPLHFB tPHLSENSE PARAMETER ON Low to GATE Low ON High to GATE High FB Low to PWRGD Low FB High to PWRGD High (VCC - SENSE) High to GATE Low CONDITIONS Figures 1, 2 Figures 1, 2 Figures 1, 3 Figures 1, 3 Figures 1, 4
TA = 25C, VCC = 24V
MIN TYP 6 1.7 3.2 1.5 0.5 1 2 MAX UNITS s s s s s
Note 1: Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. Exposure to any Absolute Maximum Rating condition for extended periods may affect device reliability and lifetime.
Note 2: All currents into device pins are positive; all currents out of device pins are negative. All voltages are referenced to ground unless otherwise specified.
TYPICAL PERFOR A CE CHARACTERISTICS
ICC vs VCC
3.5 3.0 2.5 ICC (mA) 2.0 1.5 1.0 0.5 0 0 20 40 60 VCC (V) 80 100
1641-1 G01
85C 25C -45C ICC (mA)
48V 2.5 24V 2.0 1.5 1.0 0.5 0 -50
FB PIN LOW VOLTAGE THRESHOLD (V)
FB Pin High Voltage Threshold vs Temperature
1.335 0.100 VCC = 48V
FB PIN HYSTERESIS (V)
FB PIN HIGH VOLTAGE THRESHOLD (V)
1.330 1.325 1.320 1.315 1.310 1.305 1.300 1.295 1.290 1.285 1.280 -50
0.080 0.075 0.070 0.065 0.060 0.055 0.050 0.045 0.040 -50
IGATE PULL UP (A)
-25
0 25 50 TEMPERATURE (C)
UW
75
1641-1 G04
ICC vs Temperature
3.0 1.250 1.245 1.240 1.235 1.230 1.225 1.220 1.215 1.210 1.205
FB Pin Low Voltage Threshold vs Temperature
VCC = 48V
-25
0 25 50 TEMPERATURE (C)
75
100
1.200 -50
-25
0 25 50 TEMPERATURE (C)
75
100
1641-1 G02
1641-1 G03
FB Pin Hysteresis vs Temperature
-5 VCC = 48V -6 -7 -8 -9 -10 -11 -12 -25 0 25 50 TEMPERATURE (C) 75 100 0.095 0.090 0.085
IGATE Pull Up vs Temperature
VCC = 48V
100
-13 -50
-25
0 25 50 TEMPERATURE (C)
75
100
1641-1 G05
1641-1 G06
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LT1641-1/LT1641-2 TYPICAL PERFOR A CE CHARACTERISTICS
Gate Drive vs Temperature
16 15 GATE DRIVE (VGATE - VCC) (V) 14 13 12 11 10 9 8 7 6 -50 -25 VCC = 10.8V VCC = 48V 16 TIMER PIN PULL UP CURRENT (A)
GATE DRIVE (VGATE - VCC) (V)
0 25 50 TEMPERATURE (C)
TIMER Pin Pull Up Current vs VCC
16
ON PIN HIGH VOLTAGE THRESHOLD (V)
TIMER PIN PULL UP CURRENT (A)
1.330 1.325 1.320 1.315 1.310 1.305 1.300 1.295 1.290 1.285 -50
ON PIN LOW VOLTAGE THRESHOLD (V)
14
12
TA = -45C TA = 0C
10 TA = 25C 8 TA = 85C
6 10 30 50 VCC (V) 70 90
1641-1 G10
ON Pin Voltage Hysteresis vs Temperature
0.100 20 18 16 PWRGD VOUT LOW (V) 14 12 10 8 6 4 2 0.050 -50 -25 0 25 50 TEMPERATURE (C) 75 100 0
SENSE PIN REGULATION VOLTAGE (mV)
ON PIN LOW VOLTAGE HYSTERESIS (V)
VCC = 48V 0.090
0.080
0.070
0.060
4
UW
75
1641-1 G07 1641-1 G13
Gate Drive vs VCC
-40 -50 -60 -70 -80 -90
TIMER Pin Pull Up Current vs Temperature
VCC = 48V
14
TA = 25C
12
10
8
-100 -110 -50
6 100 0 20 40 VCC (V) 60 80
1641-1 G08
-25
0 25 50 TEMPERATURE (C)
75
100
1641-1 G09
ON Pin High Voltage Threshold vs Temperature
1.335 VCC = 48V 1.239 1.237 1.235 1.233 1.231 1.229 1.227 1.225
ON Pin Low Voltage Threshold vs Temperature
VCC = 48V
-25
0 25 50 TEMPERATURE (C)
75
100
1.223 -50
-25
0 25 50 TEMPERATURE (C)
75
100
1641-1 G11
1641-1 G12
PWRGD VOUT Low vs ILOAD
50 VCC = 48V 45 40 35 30 25 20 15 10 5 0 10 30 50 ILOAD (mA) 70 90
1641-1 G14
SENSE Pin Regulation Voltage vs VFEEDBACK
VCC = 48V TA = 25C
TA = -45C TA = 25C TA = 85C
0
0.2
0.4 0.6 VFEEDBACK (V)
0.8
1
1641-1 G15
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LT1641-1/LT1641-2
PI FU CTIO S
ON (Pin 1): The ON pin is used to implement undervoltage lockout. When the ON pin is pulled below the 1.233V Highto-Low threshold voltage, an undervoltage condition is detected and the GATE pin is pulled low to turn the MOSFET off. When the ON pin rises above the 1.313V Low-to-High threshold voltage, the MOSFET is turned on again. Pulsing the ON pin low after a current limit fault will reset the fault latch and allow the part to turn back on. FB (Pin 2): Power Good Comparator Input. It monitors the output voltage with an external resistive divider. When the voltage on the FB pin is lower than the High-to-Low threshold of 1.233V, the PWRGD pin is pulled low and released when the FB pin is pulled above the 1.313V Lowto-High threshold. The FB pin also effects foldback current limit (see Figure 7 and related discussion). PWRGD (Pin 3): Open Collector Output to GND. The PWRGD pin is pulled low whenever the voltage at the FB pin falls below the High-to-Low threshold voltage. It goes into a high impedance state when the voltage on the FB pin exceeds the Low-to-High threshold voltage. An external pull-up resistor can pull the pin to a voltage higher or lower than VCC. GND (Pin 4): Chip Ground. TIMER (Pin 5): Timing Input. An external timing capacitor at this pin programs the maximum time the part is allowed to remain in current limit. When the part goes into current limit, an 77A pull-up current source starts to charge the timing capacitor. When the voltage on the TIMER pin reaches 1.233V, the GATE pin is pulled low; the pull-up current will be turned off and the capacitor is discharged by a 3A pull-down current. When the TIMER pin falls below 0.5V, the GATE pin either turns on automatically (LT1641-2) or turns on once the ON pin is pulsed low to reset the internal fault latch (LT1641-1). If the ON pin is not cycled low, the GATE pin remains latched off. Use no less than 1.5nF for the timing capacitor, C2. GATE (Pin 6): The High Side Gate Drive for the External N-Channel. An internal charge pump guarantees at least 10V of gate drive for supply voltages above 20V and 4.5V gate drive for supply voltages between 10.8V and 20V. The rising slope of the voltage at the GATE is set by an external capacitor connected from the GATE pin to GND and an internal 10A pull-up current source from the charge pump output. When the current limit is reached, the GATE pin voltage will be adjusted to maintain a constant voltage across the sense resistor while the timer capacitor starts to charge. If the TIMER pin voltage exceeds 1.233V, the GATE pin will be pulled low. The GATE pin is pulled to GND whenever the ON pin is pulled low, the VCC supply voltage drops below the 8.3V undervoltage lockout threshold or the TIMER pin rises above 1.233V. SENSE (Pin 7): The Current Limit Sense Pin. A sense resistor must be placed in the supply path between VCC and SENSE. The current limit circuit will regulate the voltage across the sense resistor (VCC - VSENSE) to 47mV when VFB is 0.5V or higher. If VFB drops below 0.5V, the voltage across the sense resistor decreases linearly and stops at 12mV when VFB is 0V. To defeat current limit, short the SENSE pin to the VCC pin. VCC (Pin 8): The Positive Supply Input ranges from 9V to 80V for normal operation. ICC is typically 2mA. An internal undervoltage lockout circuit disables the chip for inputs less than 8.3V.
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LT1641-1/LT1641-2
BLOCK DIAGRA
FB
1.233V
ON
VCC
8.3V
0.5V
TEST CIRCUIT
ON VCC
6
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VCC SENSE VP VP GEN
-
12mV ~ 47mV
+ +
REF GEN 0.5V
CHARGE PUMP AND GATE DRIVER
GATE
-
1.233V
+
PWRGD
-
+ -
-
UNDERVOLTAGE LOCKOUT
+
LOGIC
+ -
VP 80A
+
1.233V
-
TIMER
3A
1641-1 BD
GND
+ -
24V
FB V+ 5V
SENSE
PWRGD 5k GND
GATE
10nF
TIMER
1641-1 F01
Figure 1
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LT1641-1/LT1641-2
TI I G DIAGRA S
1.313V ON tPLHON 1.233V tPHLON 1V GATE 5V
1641-1 F02
Figure 2. ON to GATE Timing
APPLICATIO S I FOR ATIO
Hot Circuit Insertion
When circuit boards are inserted into a live backplane, the supply bypass capacitors on the boards draw high peak currents from the backplane power bus as they charge up. The transient currents can permanently damage the connector pins and glitch the system supply, causing other boards in the system to reset. The chip is designed to turn on a board's supply voltage in a controlled manner, allowing the board to be safely inserted or removed from a live backplane. The chip also provides undervoltage and overcurrent protection while a power good output signal indicates when the output supply voltage is ready. Power-Up Sequence The power supply on a board is controlled by placing an external N-channel pass transistor (Q1) in the power path (Figure 5). Resistor RS provides current detection and capacitor C1 provides control of the GATE slew rate.
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1.313V
FB
tPLHFB
1.233V tPHLFB 1V
PWRGD
1V
1641-1 F03
Figure 3. FB to PWRGD Timing
VCC - SENSE
47mV tPHLSENSE VCC
1641-1 F04
GATE
Figure 4. SENSE to GATE Timing
Resistor R6 provides current control loop compensation while R5 prevents high frequency oscillations in Q1. Resistors R1 and R2 provide undervoltage sensing. After the power pins first make contact, transistor Q1 is turned off. If the voltage at the ON pin exceeds the turn-on threshold voltage, the voltage on the VCC pin exceeds the undervoltage lockout threshold, and the voltage on the TIMER pin is less than 1.233V, transistor Q1 will be turned on (Figure 6). The voltage at the GATE pin rises with a slope equal to 10A/C1 and the supply inrush current is set at IINRUSH = CL * 10A/C1. If the voltage across the current sense resistor RS gets too high, the inrush current will then be limited by the internal current limit circuitry which adjusts the voltage on the GATE pin to maintain a constant voltage across the sense resistor. Once the voltage at the output has reached its final value, as sensed by resistors R3 and R4, the PWRGD pin goes high.
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LT1641-1/LT1641-2
APPLICATIO S I FOR ATIO
VIN 24V
RS 0.025
Q1 IRF530
SHORT PIN
R1 49.9k 1%
R5 10 5%
D1 CMPZ 5248B
C1 R6, 10nF 1k, 5%
R3 59k 1%
8 VCC 1
ON
7 SENSE
6 GATE
FB
R7 24k 5%
2
R4 3.57k 1%
LT1641-1
R2 3.4k 1%
PWRGD TIMER 5
C2 0.68F
3
GND 4
1641-1 F05
GND
Figure 5. Typical Application
Short-Circuit Protection The chip features a programmable foldback current limit with an electronic circuit breaker that protects against short-circuits or excessive supply currents. The current limit is set by placing a sense resistor between VCC (Pin 8) and SENSE (Pin 7). To prevent excessive power dissipation in the pass transistor and to prevent voltage spikes on the input supply during short-circuit conditions at the output, the current folds back as a function of the output voltage, which is sensed at the FB pin (Figure 7). When the voltage at the FB pin is 0V, the current limit circuit drives the GATE pin to force a constant 12mV drop across the sense resistor. As the output voltage at the FB pin increases, the voltage across the sense resistor increases until the FB pin reaches 0.5V, at which point the voltage across the sense resistor is held constant at 47mV. The maximum current limit is calculated as: ILIMIT = 47mV/RSENSE For a 0.025 sense resistor, the current limit is set at 1.88A and folds back to 480mA when the output is shorted to ground.
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VOUT CL
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PWRGD
Figure 6. Power-Up Waveforms
The IC also features a variable overcurrent response time. The time required to regulate Q1's drain current depends on: Q1's input capacitance; gate capacitor C1 and compensation resistor R6; and the internal delay from the SENSE to the GATE pin. Figure 8 shows the delay from a voltage step at the SENSE pin until the GATE voltage starts falling, as a function of overdrive. TIMER The TIMER pin (Pin 5) provides a method for programming the maximum time the chip is allowed to operate in current limit. When the current limit circuitry is not active, the TIMER pin is pulled to GND by a 3A current source. After the current limit circuit becomes active, an 80A pullup current source is connected to the TIMER pin and the voltage will rise with a slope equal to 77A/CTIMER as long as the current limit circuit remains active. Once the desired maximum current limit time is set, the capacitor value is: C(nF) = 62 * t(ms). If the current limit circuit turns off, the TIMER pin will be discharged to GND by the 3A current source. Whenever the TIMER pin reaches 1.233V, either the internal fault latch is set (LT1641-1) or the autorestart latch is set (LT1641-2). The GATE pin is immediately pulled to GND and the TIMER pin is pulled back to GND by the 3A
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LT1641-1/LT1641-2
APPLICATIO S I FOR ATIO
VCC - VSENSE
47mV
12mV
0V
0.5V
VFB
1641-1 F07
Figure 7. Current Limit Sense Voltage vs Feedback Pin Voltage
current source. When the TIMER pin falls below 0.5V, the GATE pin either turns on automatically (LT1641-2) or once the ON pin is pulsed low to reset the internal fault latch (LT1641-1). The waveform in Figure 9 shows how the output latches off following a short-circuit. The drop across the sense resistor is held at 12mV as the timer ramps up. Since the output did not rise bringing FB above 0.5V, the circuit latches off. For Figure 9, CT = 100nF. Undervoltage and Overvoltage Detection The ON pin can be used to detect an undervoltage condition at the power supply input. The ON pin is internally connected to an analog comparator with 80mV of hysteresis. If the ON pin falls below its threshold voltage (1.233V), the GATE pin is pulled low and is held low until ON is high again. Figure 10 shows an overvoltage detection circuit. When the input voltage exceeds the Zener diode's breakdown voltage, D2 turns on and starts to pull the TIMER pin high. After the TIMER pin is pulled higher than 1.233V, the fault latch is set and the GATE pin is pulled to GND immediately, turning off transistor Q1. The waveforms are shown in Figure 11. Operation is restored either by interrupting power or by pulsing ON low.
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PROPAGATION DELAY 12s 10s 8s 6s 4s 2s 50mV 100mV 150mV 200mV VCC - VSENSE
1641-1 F08
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Figure 8. Response Time to Overcurrent
Power Good Detection The chip includes a comparator for monitoring the output voltage. The noninverting input (FB pin) is compared against an internal 1.233V precision reference and exhibits 80mV hysteresis. The comparator's output (PWRGD pin) is an open collector capable of operating from a pullup as high as 100V. The PWRGD pin can be used to directly enable/disable a power module with an active high enable input. Figure 12 shows how to use the PWRGD pin to control an active low enable input power module. Signal inversion is accomplished by transistor Q2 and R7. Supply Transient Protection The IC is 100% tested and guaranteed to be safe from damage with supply voltages up to 100V. However, spikes above 100V may damage the part. During a short-circuit condition, the large change in currents flowing through the power supply traces can cause inductive voltage spikes which could exceed 100V. To minimize the spikes, the power trace parasitic inductance should be minimized by using wider traces or heavier trace plating and a 0.1F bypass capacitor placed between VCC and GND. A surge suppressor at the input can also prevent damage from voltage surges.
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LT1641-1/LT1641-2
APPLICATIO S I FOR ATIO U
VIN 24V SHORT PIN R1 49.9k 1% RS 0.025 Q1 IRF530 D1 CMPZ 5248B C1 R6, 10nF 1k, 5% 8 VCC 1 ON LT1641-1 R2 3.4k 1% TIMER 5 GND C2 0.68F GND 4
1641-1 F10
Figure 9. Short-Circuit Waveforms
GATE Pin Voltage A curve of gate drive vs VCC is shown in Figure 13. The GATE pin is clamped to a maximum voltage of 18V above the input voltage. At minimum input supply voltage of 9V, the minimum gate drive voltage is 4.5V. When the input
10
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R3 59k 1%
VOUT CL
R5 10 5% D2 30V 1N5256B 7
6 2 R4 3.57k 1% 3
SENSE GATE FB
R7 24k 5%
PWRGD
PWRGD
Figure 10. Overvoltage Detection
Figure 11. Overvoltage Waveforms
supply voltage is higher than 20V, the gate drive voltage is at least 10V and a regular N-FET can be used. In applications over a 9V to 24V range, a logic level N-FET must be used with a proper protection Zener diode between its gate and source (as D1 shown is Figure 5).
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LT1641-1/LT1641-2
APPLICATIO S I FOR ATIO
Layout Considerations To achieve accurate current sensing, a Kelvin connection is recommended. The minimum trace width for 1oz copper foil is 0.02" per amp to make sure the trace stays at a reasonable temperature. 0.03" per amp or wider is recommended. Note that 1oz copper exhibits a sheet resistance of about 530/ . Small resistances add up quickly in
VIN 48V SHORT PIN R1 294k 1%
RS 0.01
Q1 IRF530 D1 CMPZ 5248B C1 10nF R7 47k 5% FB LT1641-1 2 R4 4.22k 1% 3 Q2 MMBT5551LT1
R5 10 5% R6, 1k, 5% 8 VCC 1 7 SENSE 6 GATE
UV = 37V
ON
R2 10.2k 1% TIMER 5 GND C2 0.68F GND 4
Figure 12. Active Low Enable Module
18
16 14
VGATE - VCC (V)
VCC
SENSE
12 10 8 6 4 2 0 8 13 18 VCC (V) 23
1641-1 F13
R2
ILOAD
GND
1641-1 F14
Figure 13. Gate Drive vs Supply Voltage
Figure 14. Recommended Layout for R1, R2 and RS
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Information furnished by Linear Technology Corporation is believed to be accurate and reliable. However, no responsibility is assumed for its use. Linear Technology Corporation makes no representation that the interconnection of its circuits as described herein will not infringe on existing patent rights.
ON
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high current applications. To improve noise immunity, put the resistor divider to the ON pin close to the chip and keep traces to VCC and GND short. A 0.1F capacitor from the ON pin to GND also helps reject induced noise. Figure 14 shows a layout that addresses these issues.
R3 143k 1% ACTIVE LOW ENABLE MODULE
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VIN + CL 220F ON/OFF VIN -
VOUT + VOUT VOUT -
PWRGD
1641-1 F12
ILOAD
SENSE RESISTOR, RS LT1641-1 R1
11
LT1641-1/LT1641-2
PACKAGE DESCRIPTIO U
S8 Package 8-Lead Plastic Small Outline (Narrow .150 Inch)
(Reference LTC DWG # 05-08-1610)
.189 - .197 (4.801 - 5.004) NOTE 3 8 7 6 5
.045 .005 .050 BSC
.245 MIN
.160 .005
.228 - .244 (5.791 - 6.197)
.150 - .157 (3.810 - 3.988) NOTE 3
.030 .005 TYP RECOMMENDED SOLDER PAD LAYOUT
.010 - .020 x 45 (0.254 - 0.508) .008 - .010 (0.203 - 0.254) 0- 8 TYP
1
2
3
4
.053 - .069 (1.346 - 1.752)
.004 - .010 (0.101 - 0.254)
.016 - .050 (0.406 - 1.270) NOTE: 1. DIMENSIONS IN
INCHES (MILLIMETERS) 2. DRAWING NOT TO SCALE 3. THESE DIMENSIONS DO NOT INCLUDE MOLD FLASH OR PROTRUSIONS. MOLD FLASH OR PROTRUSIONS SHALL NOT EXCEED .006" (0.15mm)
.014 - .019 (0.355 - 0.483) TYP
.050 (1.270) BSC
SO8 0303
RELATED PARTS
PART NUMBER LT1640A LTC1421 LTC1422 LTC1643 LTC1642 LT4250 DESCRIPTION Negative High Voltage Hot Swap Controller Dual Channel Hot Swap Controller High Side Drive Hot Swap Controller in SO-8 PCI Hot Swap Controller Fault Protected Hot Swap Controller Negative 48V Hot Swap Controller COMMENTS Controls an N-FET at Negative Side to - 80V Operates Two Supplies from 3V to 12V and a Third to -12V System Reset Output with Programmable Delay 3.3V, 5V, 12V, -12V Supplies for PCI Bus Operates from 3V to 16.5V, Handles Surges to 33V Active Current Limiting for Supplies from - 20V to - 80V
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Linear Technology Corporation
1630 McCarthy Blvd., Milpitas, CA 95035-7417
(408) 432-1900 FAX: (408) 434-0507
LT/LWI 0706 REV C * PRINTED IN USA
www.linear.com
(c) LINEAR TECHNOLOGY CORPORATION 2001

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