Microsemi Corporation SG1526J, SG1526J-883B, SG1526L, SG1526L-883B, SG2526DW Datasheet

SG1526/SG2526/SG3526

REGULATING PULSE WIDTH MODULATOR

DESCRIPTION

The SG1526 is a high performance monolithic pulse width modulator
circuit designed for fixed-frequency switching regulators and other
power control applications. Included in an 18-pin dual-in-line package
are a temperature compensated voltage reference, sawtooth oscillator,
error amplifier, pulse width modulator, pulse metering and steering logic,
and two low impedance power drivers. Also included are protective
features such as soft-start and undervoltage lockout, digital current
limiting, double pulse inhibit, a data latch for single pulse metering,
adjustable deadtime, and provision for symmetry correction inputs. For
ease of interface, all digital control ports are TTL and B-series CMOS
compatible. Active LOW logic design allows wired-OR connections for
maximum flexibility. This versatile device can be used to implement
single-ended or push-pull switching regulators of either polarity, both
transformerless and transformer coupled. The SG1526 is characterized
for operation over the full military ambient junction temperature range of

-55°C to +150°C. The SG2526 is characterized for operation from -25°C
to +150°C, and the SG3526 is characterized for operation from 0°C to
+125°C.

BLOCK DIAGRAM

FEATURES

••

• 8 to 35 volt operation

••

••

• 5V reference trimmed to ±1%

••

••

• 1Hz to 350KHz oscillator range

••

••

• Dual 100mA source/sink outputs

••

••

• Digital current limiting

••

••

• Double pulse suppression

••

••

• Programmable deadtime

••

••

• Undervoltage lockout

••

••

• Single pulse metering

••

••

• Programmable soft-start

••

••

• Wide current limit common mode range

••

••

• TTL/CMOS compatible logic ports

••

••

• Symmetry correction capability

••

••

• Guaranteed 6 unit synchronization

••

HIGH RELIABILITY FEATURES - SG1526

♦♦

♦ Available to MIL-STD-883B and DESC SMD

♦♦
♦♦

♦ Radiation data available

♦♦
♦♦

♦ LMI level "S"processing available

♦♦

+V

GROUND

RESET

C

SOFTSTART

COMPENSATION

+ ERROR

— ERROR

+ C.S.

— C.S.

V

REF

+V

IN

R

D

R

T

C

T

Reference
Regulator

Oscillator

Soft

Start

+V

IN

Amp

To Internal

Circuitry

Undervoltage

Lockout

SYNC

SHUTDOWN

S

Q

D

Q

METERING

F/F

S
R

Q

MEMORY

F/F

T

TOGGLE

F/F

Q
Q

C

OUTPUT A

OUTPUT B

4/90 Rev 1.1 2/94 LINFINITY Microelectronics Inc.

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ABSOLUTE MAXIMUM RATINGS (Note 1)

Input Voltage (V
Collector Supply Voltage (V

Logic Inputs .........................................................

) ...............................................................

IN

) .............................................

C

-0.3V to 5.5V

Analog Inputs ..........................................................

Source/Sink Load Current (each output) .......................

Reference Load Current ..................................................

Note 1. Exceeding these ratings could cause damage to the device.

40V
40V

-0.3V to V
200mA

50mA

THERMAL DATA

J Package:

Thermal Resistance­Thermal Resistance-

N Package:

Thermal Resistance­Thermal Resistance-

DW Package:

Thermal Resistance­Thermal Resistance-

L Package:

Thermal Resistance­Thermal Resistance-

Junction to Case, θ
Junction to Ambient, θ

Junction to Case, θ
Junction to Ambient, θ

Junction to Case, θ
Junction to Ambient, θ

Junction to Case, θ
Junction to Ambient, θ

JC

JC

JC

JC

.................. 25°C/W

.............. 70°C/W

JA

.................. 30°C/W

............. 60°C/W

JA

.................. 35°C/W

............. 90°C/W

JA

................... 35°C/W

........... 120°C/W

JA

SG1526/SG2526/SG3526

Logic Sink Current ............................................................

Operating Junction Temperature

Hermetic (J, L Packages) ............................................

IN

Plastic (N, DW Packages) ...........................................

Storage Temperature Range ............................

Lead Temperature (Soldering, 10 Seconds) ...................

Note A. Junction Temperature Calculation: TJ = TA + (PD x θJA).
Note B. The above numbers for θ

thermal resistance of the package in a standard mount­ing configuration. The θ
guidelines for the thermal performance of the device/pc-

are maximums for the limiting

JC

numbers are meant to be

JA

board system. All of the above assume no ambient
airflow.

15mA

150°C
150°C

-65°C to 150°C
300°C

RECOMMENDED OPERATING CONDITIONS (Note 2)

Input Voltage .............................................................

Collector Supply Voltage ........................................

Sink/Source Load Current (each output) ................

Reference Load Current ...........................................

Oscillator Frequency Range ..............................

Oscillator Timing Resistor ..................................

Note 2. Range over which the device is functional.

8V to 35V

4.5V to 35V
0 to 100mA

0 to 20mA

1Hz to 350KHz

2KΩ to 150KΩ

Oscillator Timing Capacitor ....................................

Available Deadtime Range at 40KHz ......................

Operating Ambient Temperature Range:

SG1526 .........................................................

SG2526 ...........................................................

-55°C to 125°C

-25°C to 85°C

SG3526 ...............................................................

1nF to 20µF

3% to 50%

0°C to 70°C

ELECTRICAL CHARACTERISTICS

(Unless otherwise specified, these specifications apply over the operating ambient temperatures for SG1526 with -55°C ≤ TA ≤ 125°C, SG2526 with

-25°C ≤ T
temperatures equal to the ambient temperature.)

Reference Section (Note 3)

Output Voltage
Line Regulation
Load Regulation
Temperature Stability
Total Output Voltage Range (Note 9)
Short Circuit Current

Undervoltage Lockout Section

RESET Output Voltage
RESET Output Voltage

≤ 85° C, SG3526 with 0°C ≤ TA ≤ 70° C, and VIN = 15V. Low duty cycle pulse testing techniques are used which maintains junction and case

A

Parameter Test Conditions

TJ = 25°C
V

= 8 to 35V

IN

= 0 to 20mA

I

L

(Note 9)

Over Operating T

J

Over Recommended Operating Conditions

= 0V

V

REF

V

= 3.8V

REF

= 4.8V

V

REF

SG1526/2526

Min. Typ. Max.

4.95

5.00

5.05

10

30
30

10
15

50

4.90

5.00

5.10

50

125

0.2

0.4

2.4

4.8

SG3526

Min. Typ. Max.

4.90

5.00

5.10

10

30

10

50

15

50

4.85

5.00

5.15

50

125

0.40.2

4.82.4

Units

V
mV
mV
mV

V
mA

V

V

4/90 Rev 1.1 2/94 LINFINITY Microelectronics Inc.

Copyright  1994 11861 Western Avenue

2 (714) 898-8121

∞ ∞

∞ Garden Grove, CA 92841

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∞∞

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ELECTRICAL CHARACTERISTICS (continued)

SG1526/SG2526/SG3526

Test ConditionsParameter Units

Oscillator Section (Note 4)

Initial Accuracy
Voltage Stability
Temperature Stability

(Note 9)

Minimum Frequency (Note 9)
Maximum Frequency
Sawtooth Peak Voltage
Sawtooth Valley Voltage

TJ = 25°C
V

= 8 to 35V

IN

Over Operating T

J

RT = 150KΩ, CT = 20µF

= 2KΩ, CT = 1.0nF

R

T

V

= 35V

IN

V

= 8V

IN

Error Amplifier Section (Note 5)

Input Offset Voltage

RS ≤ 2KΩ
Input Bias Current
Input Offset Current
DC Open Loop Gain
High Output Voltage
Low Output Voltage
Common Mode Rejection
Supply Voltage Rejection

PWM Comparator Section

Minimum Duty Cycle
Maximum Duty Cycle

(Note 4)

R

≥ 10MΩ, TJ = 25°C

L

V

- V

- V

≥ 150mV, I

PIN2

≥ 150mV, I

PIN1

= 0.4V
= 3.6V 45 49

PIN1

V

PIN2

R

≤ 2KΩ

S

V

= 8V to 35V

IN

V

COMPENSATION

V

COMPENSATION

SOURCE

= 100µA

SINK

= 100µA

Digital Ports (SYNC, SHUTDOWN, and RESET)

I

HIGH Output Voltage
LOW Output Voltage
HIGH Input Current
LOW Input Current

SOURCE

I

SINK

= 2.4V

V

IH

V

= 0.4V

IL

= 40µA

= 3.6mA

Current Limit Comparator Section (Note 6)

Sense Voltage

RS ≤ 50Ω, TJ = 25°CmV
Input Bias Current

Soft-Start Section

Error Clamp Voltage
C

Charging Current 50

S

Output Drivers (each output)

HIGH Output Voltage
LOW Output Voltage
Collector Leakage

Rise Time
Fall Time

Power Consumption Section

RESET = 0.4V

RESET = 2.4V

(Note 7)

I

SOURCE

I

SOURCE

I

SINK

I

SINK

V

C

C

(Note 8)

= 20mA

= 100mA
= 20mA
= 100mA

= 40V

C

= 1000pF

L

= 1000pF

L

SHUTDOWN = 0.4VStandby Current 18 30 18 30 mA

Note 3. IL = 0mA
Note 4. F
Note 5. VCM = 0 to 5.2V
Note 6. V

= 40KHz (RT = 4.12KΩ ±1%, CT = .01µF ±1%, RD = 0Ω)

OSC

= 0 to 12V

CM

Note 7. VC = 15V
Note 8. V
Note 9. These parameters, although guaranteed over the recom-

= 35V

IN

mended operating conditions, are not tested in production.

SG1526/2526

SG3526

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

350

0.5

64

3.6
70

66

±3

0.5
7

3.0

1.0

2

-350
35
72

4.2

0.2
94
80

±8

1.0
10

1.0

3.5

5

-1000
100

0.4

0

350

0.5

60

3.6
70

66

±3

0.5
5

3.0

1.0

2

-350
35
72

4.2

0.2
94
80

±8

1.0
10

1.0

3.5

10

-2000
200

0.4

0%

45 49

2.4 4

0.2

-125

-225

90 100-3110

0.1

100

12.51213.5
13

0.2

1.2
50

0.3

0.1

0.4

-300

-500

-10

0.4

200 50

12.51213.5

0.3
2

150

0.6

0.2

2.4 4

0.2

0.4

-125

-300

-225

-500

80 100-3120

-10

0.1

0.4

100

200VµA

13

0.2

0.3

1.2
50

150

0.3

0.6

0.1

0.2

2

%
%
%

Hz

KHz

V
V

mV

nA
nA
dB

V

V
dB
dB

%

V

V

µA
µA

µA

V

V

V

V

µA
µs
µs

4/90 Rev 1.1 2/94 LINFINITY Microelectronics Inc.

Copyright  1994 11861 Western Avenue

3 (714) 898-8121

∞ ∞

∞ Garden Grove, CA 92841

∞ ∞

∞∞

∞ FAX: (714) 893-2570

∞∞