CS5106 Cherry Semiconductor Corporation, CS5106 Datasheet - Page 9

CS5106

Manufacturer Part Number

CS5106

Description

Multi-Feature/ Synchronous plus Auxiliary PWM Controller

Manufacturer

Cherry Semiconductor Corporation

Datasheet

1.CS5106.pdf (12 pages)

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Figure 1: Startup waveforms.

Voltage and Current Ramp PWM Comparator Inputs

C10 and C11 are the PWM comparators for the auxiliary

and main supplies. The feedback voltage (V

by three and compared with a linear, voltage representa-

tion of the current in the primary side of the transformer

(RAMP). When the output of the feedback comparator

goes ÔhighÕ, a reset signal is sent to the PWM flip-flop and

the GATE driver is driven ÔlowÕ. A 130mV offset on the

RAMP leads allows the drivers to go to 0% duty cycle in

the presence of light loads.

Feedback Voltage for GATE1 Driver (V

Typically the output of the auxiliary error amplifier (A1) is

tied to V

10:1 resistive divider on the negative input of the error

amplifier and a fixed 1.2V reference on the positive input

of the error amplifier.

Pulse by Pulse Over Current Protection and Hiccup

Mode (I

C12 and C13 are the pulse by pulse current limit compara-

tors for the auxiliary and main supplies. When the current

in the primary side of the transformer increases such that

the voltage across the current sense resistor exceeds 1.2V

nominal, the output of the current limit comparator goes

ÔhighÕ and a reset signal is sent to the PWM flip-flop and

the GATE driver is driven ÔlowÕ.

C16 and C17 are the second threshold, pulse by pulse cur-

rent limit comparators for the auxiliary and main supplies.

If the current in the primary side of the transformer

increases so quickly that the current sense voltage is not

limited by C12 or C13 and the voltage across the current

sense resistor exceeds 1.4V, the second threshold compara-

tor will trip a delay circuit and force the GATE driver stage

to go low and stay low for the next two clock cycles.

Undervoltage and Overvoltage Thresholds

C5 and C8 are the undervoltage and overvoltage detection

comparators. Typically, these inputs are tied across the

middle resistor in a three resistor divider with the top

resistor to V

voltage comparator has 200mV of built in hysteresis with

respect to a direct input on the UVSD lead. The under volt-

REF

FB1

REF(OK)

and RAMP1,2 leads)

LIM1,2

FB1

GATE2B

RAMP1

RAMP2

GATE1

GATE2

,RUN1

RUN2

. The V

CLK1

CLK2

FB1

FB2

leads)

and bottom resistor to Ground. The under

7.5V

output is programmed to 12V by a

> V

FB1

Theory of Application: continued

)

) is divided

age comparator has its positive input referenced to 5V

while the over voltage comparator has its negative input

referenced to 5V. The output of both comparators are

ORed at (G4) with the over current and enable inputs. The

output of G4 feeds the input to the fault latch (F2).

PROGRAM and ENABLE Leads

The PROGRAM lead controls the polarity of the ENABLE

lead. If the PROGRAM lead is ÔhighÕ or floating, the GATE

outputs will go low if the ENABLE input is tied ÔhighÕ or

floating. If the PROGRAM lead is tied low, the GATE out-

puts will go low if the ENABLE input is tied ÔlowÕ. If the

part is then enabled after switching the outputs low, the

part will restart according to the procedure outlined in the

ÒStartupÓ section.

FAULT Logic

If a V

resets the fault latch (F2). RUN1 goes low and all gate

drivers cease switching and return to their ÔlowÕ state.

When RUN1 goes low, the output of the auxiliary op-amp

(A1) discharges the soft start capacitor and holds it low

while RUN1 is low. If the fault condition is removed before

the OUVDELAY timer is tripped, the IC will restart the

power supplies when V

trips, the power supply must be restarted as explained in

the following section.

Output Undervoltage Delay Timer for the Main and

Auxiliary Regulated Outputs

C7 and C4 are the output under voltage monitor compara-

tors for the auxiliary and main supplies. If a regulated out-

put drops such that its associated V

the output undervoltage monitor comparator goes ÔhighÕ

and the OUVDELAY capacitor begins charging from 0V. A

timing relation is set up by a 10µA nominal current source,

the OUVDELAY capacitor and a 5V fault threshold at the

input of C2 (see Figure 2). If any regulated output drops

and stays low for the entire charge time of the OUVDELAY

capacitor, a fault is triggered and all GATE drivers will go

into a low state.

Once this fault is triggered, the IC will restart the power

supplies only if the OUVDELAY fault is reset and ENABLE

or UVSD is toggled while V

LAY fault, both the V

the application circuit shown, V

OAOUT when RUN1 stops the oscillators. V

low when V

no longer powered.

Figure 2: OUVDELAY Time vs. OUVDELAY Capacitance

REF

1000

0.01

100

0.1

, UVSD or OVSD fault occurs at any time, G4

0.1

AUXP

bleeds down and the V

inputs must be less than 4.1V. In

CAPACITANCE (nF)

< 1.4V. If the OUVDELAY timer

< 1.4V. To reset the OUVDE-

FB1

is brought low by

voltage exceeds 4.1V,

100

FB2

opto-isolator is

FB2

1000

is brought

CS5106 Cherry Semiconductor Corporation, CS5106 Datasheet - Page 9

CS5106

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