ISL6558EVAL1 Intersil, ISL6558EVAL1 Datasheet - Page 11

ISL6558EVAL1

Manufacturer Part Number

ISL6558EVAL1

Description

EVAL BOARD W/LOAD TESTER ISL6

Manufacturer

Intersil

Series

Endura™r

Datasheets

1.ISL6558IRZ.pdf (16 pages)

2.ISL6558EVAL1.pdf (24 pages)

Specifications of ISL6558EVAL1

Main Purpose

DC/DC, Step Down

Outputs And Type

1, Non-Isolated

Power - Output

150W

Voltage - Output

1.5V

Current - Output

100A

Voltage - Input

5V, 12V

Regulator Topology

Buck

Frequency - Switching

500kHz

Board Type

Fully Populated

Utilized Ic / Part

HIP6601, ISL6558

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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See Figure 6. I

generated overcurrent trip current, I

trip current source is trimmed to 82.5µA. If I

the I

into three-state. This condition results in the HIP660x gate

drivers removing drive to the MOSFETs. The VSEN voltage

will begin to fall and once it descends below the PGOOD falling

threshold, the PGOOD signal transitions low.

A delay time, equal to the soft-start interval, is entered to

allow the disturbance to clear. After the delay time, the

controller then initiates a second soft-start interval. If the

output voltage comes up and regulation is achieved,

PGOOD transitions high. If the OC trip current is exceeded

during the soft start interval, the controller will again shut

down PWM operation and three-state the drivers. The

PGOOD signal will remain low and the soft-start interval will

be allowed to expire. Another soft-start interval will be

initiated after the delay interval. If an overcurrent trip occurs

again, this same cycle repeats until the fault is removed. The

OC function is shown in Figure 7 for a hard short of the

output which is applied for only a brief moment. The

converter quickly detects the short and attempts to restart

twice before the short is removed.

Overcurrent protection reduces the regulator RMS output

current under worst case conditions to 95% of the full load

current.

SELECTING R

The procedure for determining the value of R

insure that it scales a channel’s maximum output current to

50µA. This will insure that the overcurrent trip point is

properly detected when a current limit of 165% of the

converter’s full load current is breached. The ISEN resistor

can be calculated as follows:

where I

load device and ‘n’ is the number of active channels.

OC TRIP LEVEL ADJUSTMENT

Setting the full load reference current, I

recommended for most applications. The ratio between the

desired full load reference current and the internally set

overcurrent trip current is the overcurrent trip ratio, K

those applications where an OC trip level of 1.65 times

scaled differently. Care must be taken in selection of certain

components once the desired OC trip ratio is determined.

TOTAL

K OC

R ISEN

TRIP

is insufficient, the full load reference current can be

---------------------- -

I TOTAL

82.5µA

level, then the controller forces all PWM outputs

is the maximum output current demanded by the

I FL

-------- - x

TOTAL

ISEN

r DS ON

-------------------------

50µA

(

is compared with an internally

)

TRIP

TOTAL

. The overcurrent

TOTAL

ISEN

, to 50µA is

is to

exceeds

(EQ. 6)

(EQ. 7)

. For

ISL6558

The new overcurrent trip ratio is then used to calculate the

ISEN resistors for the new full load reference current.

One commonly over looked component which will change

due to the new overcurrent trip ratio is the feedback resistor,

Temperature effects of the MOSFET r

reviewed when changing the overcurrent trip level.

Output Voltage Monitoring

The output voltage must be tied to the VSEN pin to provide

feedback used to create a window of operation. If the output

voltage is not the reference voltage of 0.8V, it must be

scaled externally down to this level. The VSEN voltage is

then compared with two set voltage levels which indicate an

overvoltage or undervoltage condition of the output.

Violating either of these conditions results in the PGOOD pin

output toggling low to indicate a problem with the output

voltage.

OVERVOLTAGE

The VSEN voltage is compared with an internal overvoltage

protection (OVP) reference set to 115% of the internal

reference. If the VSEN voltage exceeds the OVP reference,

the comparator simultaneously sets the OV latch and

triggers the PWM output low. The drivers turn on the lower

MOSFETs, shunting the converter output to ground. Once

the output voltage falls below the nominal output voltage, the

PWM outputs are placed in three-state. This prevents

dumping of the output capacitors back through the lower

MOSFETs. If the overvoltage conditions persist, the PWM

outputs are cycled between the two states similar to a

hysteretic regulator. The OV latch can only be reset by

cycling the VCC supply voltage to initiate a POR and begin a

soft-start interval.

UNDERVOLTAGE

The VSEN voltage is also compared to a undervoltage (UV)

reference which is set to 90% of the internal reference. If the

VSEN voltage is below the UV reference, the power good

monitor triggers PGOOD to go low. The UV comparator does

not influence converter operation.

VSEN SCALING

The output voltage, V

separately from the feedback components to the FB pin. If

VSEN and FB are tied together, the error amplifier will hold

the VSEN voltage at the reference level while the actual

output voltage level could be much different. This would

mask the output voltage and prevent the protection features

R ISEN

R FB

V DROOP xK OC

-------------------------------------------- -

I FL

-------- - x

82.5µA

r DS ON

------------------------------------------ -

(

82.5µA

OUT

) xK OC

, must be fed back to the VSEN pin

DS(ON)

must be

June 21, 2005

FN9027.12

(EQ. 9)

(EQ. 8)

ISL6558EVAL1 Intersil, ISL6558EVAL1 Datasheet - Page 11

ISL6558EVAL1

Specifications of ISL6558EVAL1

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