Sharp LC-42XL2E (serv.man5) Service Manual ▷ View online
LC-42XL2E/S/RU, LC-46XL2E/S/RU, LC-46X20E/S/RU, LC-52XL2E/S/RU, LC-52X20E/S/RU
5 – 41
2.21.2 Pin Connections and short description
Pin No.
Pin Name
I/O
Pin Function
14
BOOST
O
Gate drive voltage for the high side N-channel MOSFET.
The BOOST voltage is 9 V greater than the input voltage.
A 0.1-
The BOOST voltage is 9 V greater than the input voltage.
A 0.1-
µF ceramic capacitor should be connected from this pin to the drain of the lower MOSFET.
3
BP5
O
5-V reference.
This pin should be bypassed to ground with a 0.1-
This pin should be bypassed to ground with a 0.1-
µF ceramic capacitor.
This pin may be used with an external DC load of 1 mA or less.
11
BP10
O
10-V reference used for gate drive of the N-channel synchronous rectifier.
This pin should be bypassed by a 1-
This pin should be bypassed by a 1-
µf ceramic capacitor.
This pin may be used with an external DC load of 1 mA or less.
8
COMP
O
Output of the error amplifier, input to the PWM comparator.
A feedback network is connected from this pin to the VFB pin to compensate the overall loop.
The comp pin is internally clamped above the peak of the ramp to improve large signal transient response.
A feedback network is connected from this pin to the VFB pin to compensate the overall loop.
The comp pin is internally clamped above the peak of the ramp to improve large signal transient response.
13
HDRV
O
Floating gate drive for the high-side N-channel MOSFET.
This pin switches from BOOST (MOSFET on) to SW (MOSFET off).
This pin switches from BOOST (MOSFET on) to SW (MOSFET off).
16
ILIM
I
Current limit pin, used to set the overcurrent threshold.
An internal current sink from this pin to ground sets a voltage drop across an external resistor connected from
this pin to VCC.
The voltage on this pin is compared to the voltage drop (VIN-SW) across the high side MOSFET during con-
duction.
An internal current sink from this pin to ground sets a voltage drop across an external resistor connected from
this pin to VCC.
The voltage on this pin is compared to the voltage drop (VIN-SW) across the high side MOSFET during con-
duction.
1
KFF
I
A resistor is connected from this pin to VIN to program the amount of voltage feed-forward.
The current fed into this pin is internally divided and used to control the slope of the PWM ramp.
The current fed into this pin is internally divided and used to control the slope of the PWM ramp.
10
LDRV
O
Gate drive for the N-channel synchronous rectifier.
This pin switches from BP10 (MOSFET on) to ground (MOSFET off).
This pin switches from BP10 (MOSFET on) to ground (MOSFET off).
9
PGND
—
Power ground reference for the device.
There should be a low-impedance path from this pin to the source (s) of the lower MOSFET (s).
There should be a low-impedance path from this pin to the source (s) of the lower MOSFET (s).
2
RT
I
A resistor is connected from this pin to ground to set the internal oscillator and switching frequency.
5
SGND
—
Signal ground reference for the device.
6
SS/SD
I
Soft-start programming pin.
A capacitor connected from this pin to ground programs the soft-start time.
The capacitor is charged with an internal current source of 2.3
A capacitor connected from this pin to ground programs the soft-start time.
The capacitor is charged with an internal current source of 2.3
µA.
The resulting voltage ramp on the SS pin is used as a second non-inverting input to the error amplifier.
The output voltage begins to rise when VSS/SD is approximately 0.85 V.
The output continues to rise and reaches regulation when VSS/SD is approximately 1.55 V.
The controller is considered shut down when VSS/SD is 125 mV or less. All internal circuitry is inactive.
The internal circuitry is enabled when VSS/SD is 210 mV or greater.
When VSS/SD is less than approximately 0.85 V, the outputs cease switching and the output voltage (VOUT)
decays while the internal circuitry remains active.
The output voltage begins to rise when VSS/SD is approximately 0.85 V.
The output continues to rise and reaches regulation when VSS/SD is approximately 1.55 V.
The controller is considered shut down when VSS/SD is 125 mV or less. All internal circuitry is inactive.
The internal circuitry is enabled when VSS/SD is 210 mV or greater.
When VSS/SD is less than approximately 0.85 V, the outputs cease switching and the output voltage (VOUT)
decays while the internal circuitry remains active.
12
SW
I
This pin is connected to the switched node of the converter and used for overcurrent sensing.
4
SYNC
I
Syncronization input for the device.
This pin can be used to synchronize the oscillator to an external master frequency.
If synchronization is not used, connect this pin to SGND.
This pin can be used to synchronize the oscillator to an external master frequency.
If synchronization is not used, connect this pin to SGND.
7
VFB
I
Inverting input to the error amplifier.
In normal operation the voltage on this pin is equal to the internal reference voltage, 0.7 V.
In normal operation the voltage on this pin is equal to the internal reference voltage, 0.7 V.
15
VIN
I
Supply voltage for the device.
LC-42XL2E/S/RU, LC-46XL2E/S/RU, LC-46X20E/S/RU, LC-52XL2E/S/RU, LC-52X20E/S/RU
5 – 42
2.22. IC9602 (VHiMP2367DN-1Y)
2.22.1 Block Diagram
2.22.2 Pin Connections and short description
Pin No.
Pin Name
I/O
Pin Function
1
BS
I
High-Side Gate Drive Boost Input. BS supplies the drive for the high-side N-Channel MOSFET switch.
Connect a 0.01
Connect a 0.01
µF or greater capacitor from SW to BS to power the high side switch.
2
IN
I
Power Input. IN supplies the power to the IC, as well as the step-down converter switches.
3
SW
Drive IN with a 4.45V to 28V power source. Bypass IN to GND with a suitably large capacitor to eliminate noise
on the input to the IC.
on the input to the IC.
4
GND
Ground.
5
FB
Feedback Input. FB senses the output voltage to regulate that voltage. Drive FB with a resistive voltage divider
from the output voltage. The feedback reference voltage is 0.8V.
from the output voltage. The feedback reference voltage is 0.8V.
6
COMP
Compensation Node. COMP is used to compensate the regulation control loop. Connect a series RC network
from COMP to GND to compensate the regulation control loop. In same cases, an additional capacitor from
COMP to GND is required.
from COMP to GND to compensate the regulation control loop. In same cases, an additional capacitor from
COMP to GND is required.
7
EN
Enable Input. EN is a digital input that turns the regulator on or off. Drive EN high to turn on the regulator, drive
it low to turn it off.
it low to turn it off.
8
SS
Soft-start Control Input. SS controls the soft-start period. Connect a capacitor from SS to GND to set the soft-
start period.
start period.
LC-42XL2E/S/RU, LC-46XL2E/S/RU, LC-46X20E/S/RU, LC-52XL2E/S/RU, LC-52X20E/S/RU
5 – 42
2.22. IC9602 (VHiMP2367DN-1Y)
2.22.1 Block Diagram
2.22.2 Pin Connections and short description
Pin No.
Pin Name
I/O
Pin Function
1
BS
I
High-Side Gate Drive Boost Input. BS supplies the drive for the high-side N-Channel MOSFET switch.
Connect a 0.01
Connect a 0.01
µF or greater capacitor from SW to BS to power the high side switch.
2
IN
I
Power Input. IN supplies the power to the IC, as well as the step-down converter switches.
3
SW
Drive IN with a 4.45V to 28V power source. Bypass IN to GND with a suitably large capacitor to eliminate noise
on the input to the IC.
on the input to the IC.
4
GND
Ground.
5
FB
Feedback Input. FB senses the output voltage to regulate that voltage. Drive FB with a resistive voltage divider
from the output voltage. The feedback reference voltage is 0.8V.
from the output voltage. The feedback reference voltage is 0.8V.
6
COMP
Compensation Node. COMP is used to compensate the regulation control loop. Connect a series RC network
from COMP to GND to compensate the regulation control loop. In same cases, an additional capacitor from
COMP to GND is required.
from COMP to GND to compensate the regulation control loop. In same cases, an additional capacitor from
COMP to GND is required.
7
EN
Enable Input. EN is a digital input that turns the regulator on or off. Drive EN high to turn on the regulator, drive
it low to turn it off.
it low to turn it off.
8
SS
Soft-start Control Input. SS controls the soft-start period. Connect a capacitor from SS to GND to set the soft-
start period.
start period.
LC-42XL2E/S/RU, LC-46XL2E/S/RU, LC-46X20E/S/RU, LC-52XL2E/S/RU, LC-52X20E/S/RU
5 – 42
2.22. IC9602 (VHiMP2367DN-1Y)
2.22.1 Block Diagram
2.22.2 Pin Connections and short description
Pin No.
Pin Name
I/O
Pin Function
1
BS
I
High-Side Gate Drive Boost Input. BS supplies the drive for the high-side N-Channel MOSFET switch.
Connect a 0.01
Connect a 0.01
µF or greater capacitor from SW to BS to power the high side switch.
2
IN
I
Power Input. IN supplies the power to the IC, as well as the step-down converter switches.
3
SW
Drive IN with a 4.45V to 28V power source. Bypass IN to GND with a suitably large capacitor to eliminate noise
on the input to the IC.
on the input to the IC.
4
GND
Ground.
5
FB
Feedback Input. FB senses the output voltage to regulate that voltage. Drive FB with a resistive voltage divider
from the output voltage. The feedback reference voltage is 0.8V.
from the output voltage. The feedback reference voltage is 0.8V.
6
COMP
Compensation Node. COMP is used to compensate the regulation control loop. Connect a series RC network
from COMP to GND to compensate the regulation control loop. In same cases, an additional capacitor from
COMP to GND is required.
from COMP to GND to compensate the regulation control loop. In same cases, an additional capacitor from
COMP to GND is required.
7
EN
Enable Input. EN is a digital input that turns the regulator on or off. Drive EN high to turn on the regulator, drive
it low to turn it off.
it low to turn it off.
8
SS
Soft-start Control Input. SS controls the soft-start period. Connect a capacitor from SS to GND to set the soft-
start period.
start period.
