UC2843BD1013TR - STMicroelectronics

UC2842B/3B/4B/5B

UC3842B/3B/4B/5B

March 1999

HIGH PERFORMANCE CURRENT MOD E PWM CONTRO LLER

.TRIMMED OSCILLATOR FOR PRECISE FRE-

QUENCY CONTRO L

.OSCILLATOR FREQUENCY GUARANTEED

AT 250kHz

.CURRENT MODE OP ER A TION TO 500kHz

.AUTOMATIC FEED FORWARD COMPENSA-

TION

.LATCHING PWM FOR CYCLE-BY-CYCLE

CURRENT LIMITING

.INTERNALLY TRIMMED REFERENCE WITH

UNDERVOLTAGE LOCKOUT

.HIGH CURRENT TOTE M P OLE OU TPUT

.UNDERVOLTAGE LOCKOUT WITH HYSTER-

ESIS

.LOW START-UP AND OPER ATING CU RRENT

DESCRIPTION

The UC384xB family of control ICs provides the nec-

essary features to implement off-line or DC to DC

fixe d freq uency c urren t m ode co ntrol s chemes with

a minimal external parts count. Internally imple-

men ted cir cuits i nclude a trimm ed oscil lator fo r pre-

cise DUTY CYCLE CONTROL under voltage lock-

out featuring start-up current less than 0.5mA, a pre-

cision reference trimmed for accuracy at the error

amp input, logic to insure la tche d operation, a PWM

comparator which also provides current limit control,

and a tot em pole output stage designed to source

or sink high peak current. The output stage, suitable

for driving N-Channel MOSFETs, is low in the off-

state.

Differenc es between members of this family are the

under-voltage lockout thres holds and maximum duty

cycle ranges. The UC3842B and UC3844B have

UVLO thresholds of 16V (on) and 10V (off), ideally

suited off-line applications The corresponding thresh-

olds for the UC3843B and UC3845B are 8.5 V and 7.9

V. The UC3842B and UC3843B can operate to duty

cycles approaching 100%. A range of t he zero to <

50 % is obtained by the UC3844B and UC3845B by

the addition of an internal toggle flip flop which blanks

the output off every other clock c ycle.

BLOCK DIAGRAM (toggle flip flop used only in UC3844B and UC3845B)

UVLO

S/R 5V

REF

34V

INTERNAL

BIAS

VREF GOOD

LOGIC

2.50V

OSC

R1V

CURRENT

SENSE

COMPARATOR

-PWM

LATCH

ERROR AMP.

GROUND

RT/CT

VFB

COMP

CURRENT

SENSE

VREF

5V 50mA

OUTPUT

D95IN331

Minidip

SO8

UC3842B

1/15

*All voltages are with respe ct to pi n 5, al l currents are pos itive int o t he speci f ied terminal.

PIN CONNECTION (top view)

COMP

SENSE

GROUND

OUTPUT

REF

D95IN332

Minidip/SO8

ORDERING NUMBERS

SO8 Minidip

UC2842BD1; UC3842BD1

UC2843BD1; UC3843BD1

UC2844BD1; UC3844BD1

UC2845BD1; UC3845BD1

UC2842BN; UC3842BN

UC2843BN; UC3843BN

UC2844BN; UC3844BN

UC2845BN; UC3845BN

ABSOL UTE M AXIMUM RA TINGS

Symbol Parameter Value Unit

ViSupply Voltage (low impedance source) 30 V

ViSupply Voltage (Ii < 30mA) Self Limiting

IOOutp ut Cur re nt ±1A

EOOutput Energy (capacitive load) 5 µJ

Analog Inputs (pins 2, 3) – 0.3 to 5.5 V

Error Amplifier Output Sink Current 10 mA

Ptot Power Dissipation at Tamb ≤ 25 °C (Minidip) 1.25 W

Ptot Power Dissipation at Tamb ≤ 25 °C (SO8) 800 mW

Tstg Storage Temperature Range – 65 to 150 °C

TJJunction Operating Temperature – 40 to 150 °C

TLLead Temperature (soldering 10s) 300 °C

PIN F U NCTIONS

No Function Description

1 COMP This pin is the Error Amplifier output and is m ade available for loop compensation.

FB This is the inverting input of the Error Amplifier. It is normally connected to the switching

power supply output through a resistor divider.

SENSE A voltage proportional to inductor current is connected to this input. The PWM uses this

information to terminate the output switch conduction.

/CTThe oscillator frequency and maximum Output duty cycle are programmed by connecting

resistor RT to Vref and cpacitor CT to ground. Operation to 500kHz is possible.

5 GROUND This pin is the combined control circuitry and power ground.

6 OUTPUT This output directly drives the gate of a power MOSFET. Peak currents up to 1A are sourced

and sunk by this pin.

CC This pin is the positive supply of the control IC.

ref This is the reference output. It provides charging current for capacitor C T through resistor RT.

UC2842B/3B/4B/5B - UC3842B/3B/4B/5B

2/15

ELECT RICAL C HARACTE RISTIC S ( [note 1] Unles s otherwi se stated, these spec ifications app ly for

-25 < Tamb < 85°C for UC284XB ; 0 < Tamb < 70°C for UC384XB; Vi = 15V (not e 5) ; R T = 10K; CT = 3.3nF)

Symbol Parameter Test Conditions UC284XB UC384XB Unit

Min. Typ. Max. Min. Typ. Max.

REFERENCE SECTION

VREF Output Voltage Tj = 25°C Io = 1mA 4.95 5.00 5.05 4.90 5.00 5.10 V

∆VREF Line Regulation 12V ≤ Vi ≤ 25V 220 220mV

∆

REF Load Regulation 1 ≤ Io ≤ 20mA 325 325mV

∆

REF/∆TTemperature Stability (Note 2) 0.2 0.2 mV/°C

Total Output Variation Line, Load, Temperature 4.9 5.1 4.82 5.18 V

eNOutput Noise Voltage 10Hz ≤ f ≤ 10KH z Tj = 25°C

(note 2) 50 50 µV

Long Term Stability Tamb = 125°C, 1000Hrs

(note 2) 525 525mV

SC Output Short Circuit -30 -100 -180 -30 -100 -180 mA

OSCILLATOR SECTION

fOSC Frequency Tj = 25°C

TA = Tlow to Thigh

TJ = 25°C (RT = 6. 2k, CT = 1nF)

225

–

250

275

225

–

250

275

KHz

∆fOSC/∆VFrequen cy Cha nge wit h V olt. VCC = 12V to 25V – 0.2 1 – 0.2 1 %

∆fOSC/∆TFrequency Change with Temp. TA = Tlow to T high –1––0.5–%

OSC Oscillator Voltage Swing (peak to peak) – 1.6 – – 1.6 – V

Idischg Discharge Current (VOSC =2V) TJ = 25°C

TA = Tlow to Thigh

7.8

7.5 8.3

–8.8

8.8 7.8

7.6 8.3

–8.8

8.8 mA

ERROR AMP SECTION

V2Input Voltage VPIN1 = 2.5V 2.45 2.50 2.55 2.42 2.50 2.58 V

IbInput Bias C urrent VFB = 5V -0.1 -1 -0.1 -2 µA

AVOL 2V ≤ Vo ≤ 4V 65 90 65 90 dB

BW Unity Gain Bandwidth TJ = 25°C 0.7 1 0.7 1 MHz

PSRR Pow er Supply Rejec. Ratio 12V ≤ Vi ≤ 25V 60 70 60 70 dB

IoOutput Sink Current VPIN2 = 2.7V VPIN1 = 1.1V 2 12 2 12 m A

IoOutput Source Current VPIN2 = 2.3V VPIN1 = 5V -0.5 -1 -0.5 -1 mA

VOUT High VPIN2 = 2.3V;

RL = 15KΩ to Ground 5 6.2 5 6.2 V

VOUT Low VPIN2 = 2.7V;

RL = 15KΩ to Pin 8 0.8 1.1 0.8 1.1 V

CURRENT SENSE SECTION

GVGain (note 3 & 4) 2.85 3 3.15 2.85 3 3.15 V/V

V3Maximum Input Signal VPIN1 = 5V (note 3) 0.9 1 1.1 0.9 1 1.1 V

SVR Supply Voltage Rejection 12 ≤ Vi ≤ 25V (note 3) 70 70 dB

IbInput Bias C urrent -2 -10 -2 -10 µA

Delay to Output 150 300 150 300 ns

THERMAL D ATA

Symbol Description Minidip SO8 Unit

Rth j- a mb Thermal Resistance Junction-ambient. max. 100 150 °C/W

UC2842B/3B/4B/5B - UC3842B/3B/4B/5B

3/15

Notes : 1. Max packa ge power d issipati on l imits must be respected; low duty cycle pul se t echniq ues are used during test mai ntain Tj as

close to Tamb as possib le.

2. Thes e param eters , although guarant e ed, are not 100% tes ted in produc ti on.

3. Param eter m easured at trip point of la tch wi th V PIN2 = 0.

4. Ga in de f ined as :

∆ VPIN1

A = ; 0 ≤ VPIN3 ≤ 0.8 V

∆ VPIN3

5. Adj ust Vi above the sta rt th reshold bef ore set ti ng at 15 V.

ELE CTRIC AL CH ARACT E RIS T ICS ( co nt inu ed)

Symbol Parameter Test Conditions UC284XB UC384XB Unit

Min. Typ. Max. Min. Typ. Max.

OUTPUT SECTION

VOL Output Low Level ISINK = 20mA 0.1 0.4 0.1 0.4 V

ISINK = 200mA 1.6 2.2 1.6 2.2 V

VOH Output High Level ISOURCE = 20mA 13 13.5 13 13.5 V

ISOURCE = 200mA 12 13.5 12 13.5 V

VOLS UVLO Saturation VCC = 6V; ISINK = 1mA 0.1 1.1 0.1 1.1 V

trRise Time Tj = 25°C CL = 1nF (2) 50 150 50 150 ns

tfFall Time Tj = 25°C CL = 1nF (2) 50 150 50 150 ns

UNDER-VOLTAGE LOCKOUT SECTION

Start Threshold X842B/4B 15 16 17 14.5 16 17.5 V

X843B/5B 7.8 8.4 9.0 7.8 8.4 9.0 V

Min Operating Voltage

After Turn-on X842B/4B 9 10 11 8.5 10 11.5 V

X843B/5B 7.0 7.6 8.2 7.0 7.6 8.2 V

PWM SECTION

Maximum Duty Cy cle X842B/3B 94 96 100 94 96 100 %

X844B/5B 474850474850 %

Minimum Duty Cycle 0 0 %

TOTAL STANDBY CURRENT

Ist Start-up Current Vi = 6.5V for UCX843B/45B 0.3 0.5 0.3 0.5 mA

Vi = 14V for UCX842B/44B 0.3 0.5 0.3 0.5 m A

IiOperating Supply Current VPIN2 = VPIN3 = 0V 12 17 12 17 mA

Viz Zener Voltage Ii = 25mA 30 36 30 36 V

UC2842B/3B/4B/5B - UC3842B/3B/4B/5B

4/15

Figure 1: Open L oop T e st Circui t.

A2N2222

4.7KΩ

1KΩ

ERROR AMP.

ADJUST

4.7KΩ5KΩ

SENSE

ADJUST

100KΩCOMP

SENSE

REF

OUTPUT

GROUND

0.1µF

REF

OUTPUT

GROUND

1KΩ

D95IN343

High peak currents associated with capacitive loads

necessitate careful grounding techniques. Timing

and bypass capacitors should be connected close

to pi n 5 i n a single point ground. The t ra ns is tor and

5 KΩ potentiometer are used to sample the oscillator

wav ef or m a nd ap ply an adjustable ram p to pin 3.

10K 20K 30K 50K 100K 200K 300K 500K f

OSC

(KHz)

D95IN333

=10nF

=5nF

=2nF

=1nF

=500pF

=200pF

=100pF

=15V

=25˚C

(KΩ)

0.8

Figure 2: Timing Resistor vs. Oscillator Fre-

quency

10K 20K 30K 50K 100K 200K 300K 500K fOSC(KHz)

=10nF

=5nF

=2nF

=1nF

=500pF

=200pF

=100pF

D95IN334

=15V

=25˚C

Figure 3: Output Dead-Time vs. Oscillator Fre-

quency

UC2842B

UC2842B/3B/4B/5B - UC3842B/3B/4B/5B

5/15

-55 -25 0 25 50 75 100 TA(˚C)

7.0

7.5

8.0

8.5

Idischg

(mA)

D95IN335

=15V

OSC

=2V

Figure 4: Oscillator Discharge Current vs. Tem-

perature.

1235

max

(%)

0.8 R

(KΩ)

D95IN336

=15V

=3.3nF

=25˚C

dischg

=7.5mA

dischg

=8.8mA

Figure 5: Maximum Output Duty Cycle vs. Tim-

ing Resistor.

10 100 1K 10K 100K 1M f(Hz)

-20

(dB)

180

150

120

D95IN337

=15V

=2V to 4V

=100K

=25˚C

Gain

Phase

Figure 6: Error Amp Open-Loop Gain and

Phase vs. Frequency.

0246V

(V)

0.0

0.2

0.4

0.6

0.8

1.0

Vth

(V)

D95IN338

Vi=15V

TA=-40˚C

TA=125˚C

TA=25˚C

Figure 7: Current Sense Input Threshold vs. Er-

ror Amp Output Voltage.

0 20406080100I

ref(mA)

D95IN339

=15V

=-40˚C

=125˚C

=25˚C

Figure 8: Referenc e Voltage Change vs.

Source Current.

-55 -25 0 25 50 75 100 T

(˚C)

D95IN340

100

(mA) V

=15V

≤0.1Ω

Figure 9: Reference Short Circuit Current vs.

Temperature.

UC2842B/3B/4B/5B - UC3842B/3B/4B/5B

6/15

0 200 400 600 I

(mA)

-2

-1

sat

(V)

D95IN341

=15V

80µs Pulsed Load 120Hz Rate

=-40˚C

=25˚C

=-40˚C T

=25˚C

GND

Sink Saturation

(Load to V

)

Source Saturation

(Load to Ground)

Figure 10: Out put Saturation Voltagevs. Load

Current.

0 102030V

(V)

(mA)

UCX843/45

UCX842/44

=10K

=3.3nF

=0V

Sense

=0V

=25˚C

D95IN342

Figure 11: Supply Curr ent vs. Supply Voltage.

Figure 12: Out put Waveform. Figure 13: Output Cross Conduction

5V REG

OSCILLATOR

PWM

CLOCK

GND

OUTPUT

LARGE R

/SMALL C

OUTPUT

SMALL R

/LARGE C

D95IN344

Figure 14: Oscillator and Output Waveforms.

Vi =15 V

CL = 1.0nF

TA = 25°C

90%

10%

50ns/DIV

Vi =30V

CL = 15pF

TA = 25°C

ICC

100ns/DIV

100mA/DIV

20V/DIV

UC2842B/3B/4B/5B - UC3842B/3B/4B/5B

7/15

Figure 15 : Error A m p C onf ig ura t ion.

1mA

COMP

2.5V

D95IN345

Figure 16 : Under V ol t age Lo c ko ut .

UC3842B

UC3844B UC3843B

UC3845B

16V 8.4V

10V 7.6V

OFF

ON/OFF COMMAND

TO REST OF IC

<0.5mA

<17mA

OFF

D95IN346

Figure 17 : Curre nt Se ns e Cir c uit .

ERROR

AMPL. 2R

R1V

CURRENT

SENSE

COMPARATOR

CURRENT

SENSE

COMP

GND

D95IN347

Peak c ur re nt (i s) is det er m ine d by th e form u la

1.0 V

IS max ≈RS

A small RC fi lter ma y b e re quir ed to s uppres s sw it ch tran si ent s .

Duri ng UVLO, the Output i s low

UC2842B/3B/4B/5B - UC3842B/3B/4B/5B

8/15

Figure 18 : Slop e Com pensation Techniques.

ISRSLOPE CT

VREG 8

RT/CT

ISENSE

GND RS

RSLOPE CT

VREG 8

RT/CT

ISENSE

GND

D95IN348

Figure 19 : Isolat ed M OS F E T Drive and Cu rr en t Tr an sfor m er Se ns ing .

COMP/LATCH

ISOLATION

BOUNDARY

D95IN349

5.0Vref

Waveforms

-- 50% DC 25% DC

= V

(pin 1)

-1.4

()

UC3842B UC3842B

UC2842B/3B/4B/5B - UC3842B/3B/4B/5B

9/15

Figure 20 : Latched Shutdown.

D95IN350

BIAS

-EA

OSC

3905

3903

1mA

SCR must be selected for a holding current of less than 0.5mA at T

A(min)

The simple two transistor circuit can be used in place of the SCR as shown. All resistors are 10K.

D95IN351

-EA

1mA

From V

2.5V

-EA

1mA

From V

2.5V

Error Amp compensation circuit for stabilizing any current-mode topology except

for boost and flyback converters operating with continuous inductor current.

Error Amp compensation circuit for stabilizing current-mode boost and flyback

topologies operating with continuous inductor current.

Figure 21: Error Amplifier Compensation

UC2842B/3B/4B/5B - UC3842B/3B/4B/5B

10/15

D95IN353

f =

BIAS

OSC

REF

-EA R

NE555

TO ADDITIONAL

UCX84XAs

1.44

+ 2R

)C D

max

= R

+ 2R

Figure 23: Ext ernal Duty Cycle Clamp and Multi Unit Synchronization.

D95IN352

-EA

EXTERNAL

SYNC INPUT

The diode clamp is required if the Sync amplitude is large enough to cause

the bottom side of C

to go more than 300mV below ground

BIAS

OSC

0.01µF

47Ω

REF

Figure 22: Ext ernal Clock Synchronizat ion.

UC2842B/3B/4B/5B - UC3842B/3B/4B/5B

11/15

D95IN354

BIAS

OSC

-EA R

1mA

ref

1MΩ

Figure 24: Soft-Start Cir cuit

D95IN355

BIAS

OSC

-EA R

1mA

ref

Clamp

Comp/Latch

BC109

CLAMP

= ·R

+ R

where 0 <V

CLAMP

<1V I

pk(max)

= V

CLAMP

Figure 25: Soft -Star t and Error Amplifier Output Dut y Cycle Clamp.

UC2842B/3B/4B/5B - UC3842B/3B/4B/5B

12/15

DIM. mm inch

MIN. TYP. MAX. MIN. TYP. MAX.

A 1.75 0.069

a1 0.1 0.25 0.004 0.010

a2 1.65 0.065

a3 0.65 0.85 0.026 0.033

b 0.35 0.48 0.014 0.019

b1 0.19 0.25 0.007 0.010

C 0.25 0.5 0.010 0.020

c1 45° (typ.)

D (1) 4.8 5.0 0.189 0.197

E 5.8 6.2 0.228 0.244

e 1.27 0.050

e3 3.81 0.150

F (1) 3.8 4.0 0.15 0.157

L 0.4 1.27 0.016 0.050

M 0.6 0.024

S8° (max.)

(1) D and F do not include mold flash or protrusions. Mold flash or

potrusions shall not exceed 0.15mm (.006inch).

SO8

OUTLINE AND

MECHANICAL DATA

UC2842B/3B/4B/5B - UC3842B/3B/4B/5B

13/15

Minidip

DIM. mm inch

MIN. TYP. MAX. MIN. TYP. MAX.

A 3.32 0.131

a1 0.51 0.020

B 1.15 1.65 0.045 0.065

b 0.356 0.55 0.014 0.022

b1 0.204 0.304 0.008 0.012

D 10.92 0.430

E 7.95 9.75 0.313 0.384

e 2.54 0.100

e3 7.62 0.300

e4 7.62 0.300

F 6.6 0.260

I 5.08 0.200

L 3.18 3.81 0.125 0.150

Z 1.52 0.060

OUTLINE AND

MECHANICAL DATA

UC2842B/3B/4B/5B - UC3842B/3B/4B/5B

14/15

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quences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No

license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specification mentioned in this

publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMi-

croelectronics products are not authorized for use as critical components in life support devices or systems without express written

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