MIC2586 Datasheet, PDF(11/17 Page) Micrel Semiconductor – Single-Channel, Positive High-Voltage Hot Swap Controller/Sequencer

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MIC2586 Datasheet, PDF (11/17 Pages) Micrel Semiconductor – Single-Channel, Positive High-Voltage Hot Swap Controller/Sequencer

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Micrel

MIC2586/MIC2586R

the control element in a circuit that lowers the current limit as

a function of the output voltage. When the load current

increases to the point where the output voltage at the load

approaches 0V (likewise, the MIC2586/MIC2586Râs FB pin

voltage also approaches 0V), the result is a proportionate

decrease in the maximum current allowed into the load. This

foldback current limit subcircuitâs transfer characteristic is

shown in Figure 1. Under excessive load conditions (output

and FB voltage equals 0V), the foldback current limiting

circuit controls the MIC2586/MIC2586Râs GATE drive to

force a constant 12mV (typical) voltage drop across the

external sense resistor.

Circuit Breaker Operation

The MIC2586/MIC2586R employ an electronic circuit breaker

that protects the external N-channel power MOSFET and

other system components against large-scale output current

faults, both during initial card insertion or during steady-state

operation. The current-limit threshold is set via an external

resistor, RSENSE, connected between the circuitâs VCC pin and

SENSE pin. For the MIC2586/MIC2586R, a fault current

timing circuit is set via an external capacitor (CTIMER) that

determines the length of the time delay (tFLT) for which the

controller remains in current limit before the circuit breaker is

tripped. Programming the response time of the overcurrent

detector helps to prevent nuisance tripping of the circuit

breaker because of high inrush currents charging bulk and

distributed capacitive loads. The nominal ovecurrent

response time is calculated using the following equation:

tFLT (ms)

CFILTER Ã VTIMERH

ITIMERUP

tFLT (ms) = 20 Ã CFILTER (ÂµF)

(4)

Whenever the voltage across RSENSE exceeds the

MIC2586/MIC2586Râs nominal circuit breaker threshold

voltage of 47mV during steady-state operation, two things

occur:

1. A constant-current regulation loop will engage within

1Âµs after an overcurrent condition is detected by

RSENSE, and the control loop is designed to hold the

voltage across RSENSE equal to 47mV. This feature

protects both the load and the MIC2586/MIC2586R

circuits from excessively high currents.

2. Capacitor CTIMER is then charged up to the VTIMERH

threshold (1.313V) by an internal 65ÂµA current

source (ITIMERUP). If the excessive current persists

such that the voltage across CTIMER crosses the

VTIMERH threshold, the circuit breaker trips and the

GATE pin is immediately pulled low by a 30mA

(minimum) internal current sink. This operation turns

off the MOSFET quickly and disconnects the input

from the load. The value of CTIMER should be selected

to allow the circuit's minimum regulated output

current (IOUT) to equal ILIMIT for somewhat longer than

the time it takes to charge the total load capacitance.

An initial value for CTIMER is found by calculating the time it

will take for the MIC2586/MIC2586R to completely charge up

the output capacitive load. Assuming the load is enabled by

the PWRGDx (or /PWRGDx) signal(s) of the controller, the

turn-on delay time is derived from the following expression, I

= C Ã (dV/dt):

t TURN-ON

CLOAD Ã VCC(MAX)

ILIMIT

(5)

Using parametric values for the MIC2586/MIC2586R, an

expression relating a worse-case design value for CTIMER,

using the MIC2586/MIC2586R specification limits, to the

circuit's turn-on delay time is:

CTIMER(MAX)

tTURN-ON Ã ITIMERUP(MAX)

VTIMERH(MIN)

CTIMER(MAX)

t TURN - ON

Ã ââ 120ÂµA

â 1.280V

ââ

CTIMER (MAX)

t TURN - ON

Ã ââ 94 Ã10-6

ÂµF

sec

ââ

(6)

For example, in a system with a CLOAD = 1000ÂµF, a maximum

VCC = +72V, and a maximum load current on a nominal +48V

buss of 1.65A, the nominal circuit design equations steps

are:

1. Choose ILIMIT = IHOT_SWAP(nom) = 2A (1.65A + 20%);

2. Select an RSENSE (Closest 1% standard value is

19.6mâ¦);

3. Using ICHARGE = ILIMIT = 2A, the application circuit turn-

on time is calculated using Equation 5:

(1000ÂµF Ã 72V)

tTURN-ON =

= 36ms

Allowing for capacitor tolerances and a nominal 36ms turn-on

time, an initial worse-case value for CTIMER is:

CTIMER(MAX)

0.036s Ã ââ94 Ã10-6

ÂµF

sec

ââ

3.38 ÂµF

The closest standard Â±5% tolerance capacitor value is 3.3ÂµF

and would be a good initial starting value for prototyping.

Whenever the MIC2586 is not in current limit, CTIMER is

discharged to GND by an internal 3.5ÂµA current sink

(ITIMERDN).

For the MIC2586R, the circuit breaker automatically resets

after (20) tFLT_AUTO time constants. If the fault condition still

exists, capacitor CTIMER will begin to charge up to the VTIMERH

threshold, and if exceeded, trip the circuit breaker. Capacitor

CTIMER will then be discharged by ITIMERDN until the voltage

across CTIMER drops below the VTIMERL threshold, at which

time another start cycle is initiated. This will continue until

either of the following occurs: a) the fault condition is

removed, b) the input supply voltage power is

October 2004

M9999-102204

(408) 955-1690

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