Datasheet IP3845N, IP3845J, IP3845D-8, IP3845D-14, IP3845D Datasheet (Semelab Plc)

LAB

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IP1844 SERIES
IP1845 SERIES

Semelab plc. Telephone (01455) 556565. Telex: 341927. Fax (01455) 552612.

Prelim. 2/95

CURRENT MODE

REGULATING

PULSE WIDTH

MODULATORS

FEATURES

• Guaranteed ±1% reference voltage tolerance

• Guaranteed ±10% frequency tolerance

• Low start–up current (<500 mA)

• Under voltage lockout with hysteresis

• Output state completely defined for all supply
and input conditions

• Interchangeable with UC1844 and UC1845
series for improved operation

• 500kHz Oscillator operation
250kHz Output operation

+30V

Self limiting

±1A

5µJ

–0.3V to +V

CC

10mA

1W

10mW/°C

725mW

7.25mW/°C
2W

16mW/°C

–65 to 150°C

+300°C

ABSOLUTE MAXIMUM RATINGS (T

case

= 25°C unless otherwise stated)

TOP VIEW

J Package – 8 Pin Ceramic DIP

N Package – 8 Pin Plastic DIP

D-8 Package – 8 Pin Plastic (150) SOIC

1

2

3

4

8

7

6

5

COMP

V

REF

GROUND

OUTPUT

RT/C

T

V

CC

I

SENSE

V

FB

TOP VIEW

D-14 Package – 14 Pin Plastic (150) SOIC

COMP

V

REF

GROUND

OUTPUT

1

2

3

4

POWER
GROUND

5

6

7

14

13

12

11

10

9

8

N/C

R

T/CT

I

SENSE

N/C

N/C N/C

V

CC

V

FB

V

C

V

CC

Supply Voltage (low impedance source)

(ICC< 30mA)

I

O

Output Current
Output Energy (capacitive load)
Analog Inputs (pins 2 and 3)
Error Amp Output Sink Current

P

D

Power Dissipation T

amb

= 25°C J, N Packages

Derate @ T

amb

> 50°C

P

D

Power Dissipation T

case

= 25°C D Package

Derate @ T

amb

> 50°C

P

D

Power Dissipation T

case

= 25°C J, N Packages

Derate @ T

case

> 25°C

T

STG

Storage Temperature Range

T

L

Lead Temperature (soldering, 10 seconds)

Part J–Pack N–Pack D–8 D–14 Temp.
Number 8 Pin 8 Pin 8 Pin 14 Pin Range

IP1844 ✔ -55 to +125°C
IP2844 ✔✔✔✔-25 to +85°C
IP3844 ✔✔✔✔0 to +70°C
IP1845 ✔ -55 to +125°C
IP2845 ✔✔✔✔-25 to +85°C
IP3845 ✔✔✔✔0 to +70°C

Order Information

Note:

To order, add the package identifier to the
part number.

eg. IP1844D–14

IP3845J

LAB

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IP1844 SERIES
IP1845 SERIES

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Prelim. 2/95

DESCRIPTION

The IP1844 and IP1845 series of switching regulator control circuits contain all the functions necessary to

implement off-line, current mode switching regulators, using a minimum number of external parts.

Functions included are voltage reference, error amplifier, current sense comparator, oscillator, totem-pole output
driver and under-voltage lockout circuitry. In addition there is a toggle flip-flop which blanks the output on every
second clock pulse, thereby ensuring that the duty cycle never exceeds 50%.

Although pin compatible with the UC1844 and UC1845 series, SEMELAB has incorporated several improvements
in the IP1844 and IP1845 series allowing tighter and more complete specification of electrical performance .

BLOCK DIAGRAM

Values in brackets are for IP1845 series.

3.6V

ERROR

AMP

OSCILLATOR

2R

R

1V

R

S

PWM

LATCH

CURRENT
SENSE
COMPARATOR

16V

(8.4V)

6V

(0.5V) 2.5V

UNDER–VOLTAGE

LOCKOUT

ENABLE

REFERENCE
REGULATOR

5V

INTERNAL

BIAS

34V

REG

R

S

V STATUS

LATCH

REF

T

Q

TOGGLE

FLIP

FLOP

PIN NUMBERS
1st Number
2nd Number

– N, J and 8 Pin D Packages
– 14 Pin D Package.

C

OMP

G

ND

V

CC

I

SENSE

V

FB

/CR

TT

OUTPUT

POWER
GROUND

V

REF

V

C

3/5

5/9

7/12

2/3

1/1

4/7 6/10

7/11

5/8

8/14

V

CC

Supply Voltage

I

O

Output Current
Analog Inputs (pins 2 and 3)
Error Amp Output Sink Current

IP1844 , IP1845

Operating Ambient Temperature Range IP2844 , IP2845

IP3844 , IP3845

≤ 30V

0 to ±200mA

–0.3V to 3V

0 to 2mA

–55 to 125°C
–25 to 85°C

0 to 70°C

RECOMMENDED OPERATING CONDITIONS

LAB

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IP1845 SERIES

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Prelim. 2/95

4.90 5.00 5.10
620
625

0.2 0.4

4.82 5.18

50

525

30 80 160

47 52 57

0.2 1
5

1.7

8.3
8

2.42 2.50 2.58
–0.3 –2

65 90

0.7 1
60 70

26

–0.5 –0.8

5.0 6.0

0.7 1.1

4.95 5.00 5.05
620
625

0.2 0.4

4.90 5.10

50

525

30 80 160

47 52 57

0.2 1
5

1.7

8.3
8

2.45 2.50 2.55
–0.3 –1

65 90

0.7 1
60 70

26

–0.5 –0.8

5.0 6.0

0.7 1.1

IP1844/IP1845 IP3844
IP2844/IP2845 IP3845

Parameter Test Conditions Min. Typ. Max. Min. Typ. Max. Units

Output Voltage
Input Regulation
Output Regulation

Temperature Stability

Total Output Variation
Output Noise Voltage
Long Term Stability
Output Short Circuit
Current

Frequency
Voltage stability
Temperature Stability
Amplitude

Discharge Current

Input Voltage
Input Bias Current
Open Loop Voltage
Gain
Unity Gain Bandwidth
Supply Voltage
Rejection
Output Sink Current
Output Source Current
V

OUT

High

V

OUT

Low

I

O

= 1mA TJ= 25°C

V

CC

= 12V to 25V

I

O

= 1mA to 20mA

Line, Load, Temp
f = 10Hz to 10kHz T

J

= 25°C

T

J

= 125°C @ 1000Hrs

V

REF

= 0

T

J

= 25°C

V

CC

= 12V to 25V

∆T

A

= Min to Max

V

PIN4

Peak to Peak

T

J

= 25°C

∆T

A

= Min to Max

V

PIN1

= 2.5V

V

O

= 2V to 4V

V

CC

= 12V to 25V

V

PIN2

= 2.7V V

PIN1

= 1.1V

V

PIN2

= 2.3V V

PIN1

= 5.0V

V

PIN2

= 2.3V RL= 15kΩ

V

PIN2

= 2.7V RL= 15kΩ

V

mV

mV

°C

V

µV

mV
mA

kHz

%
%

V

mA

%

V

µA
dB

MHz

dB

mA

V

ELECTRICAL CHARACTERISTICS (Over Full Operating Temperature Range unless otherwise stated)

REFERENCE SECTION

OSCILLATOR SECTION

ERROR AMP SECTION

NOTES

1. Test Conditions unless otherwise stated:
V

CC

= 15V* , RT= 10kΩ , CT= 3.3nF , f = 52kHz.

*Adjust V

CC

above start threshold before setting at required level.

All specifications apply over the full operating temperature range
unless otherwise stated. (See Ordering Information for further details).

IP1844/IP1845 IP3844
IP2844/IP2845 IP3845

Parameter Test Conditions Min. Typ. Max. Min. Typ. Max. Units

2.85 3 3.15

0.9 1 1.1
60 70

–2 –10

150 300

0.1 0.4

1.5 2.2
13 13.5
12 13.5

50 150
50 150

0.7 1.1

14.5 16 17.5

7.8 8.4 9

8.5 10 11.5
7 7.6 8.2

0.3 0.5
11 15
14 17

30 34 40

46 48 50

0

2.85 3 3.15

0.9 1 1.1
60 70

–2 –10

150 300

0.1 0.4

1.5 2.2
13 13.5
12 13.5

50 150
50 150

0.7 1.1

15 16 17

7.8 8.4 9
91011
7 7.6 8.2

0.3 0.5
11 15
14 17

30 34 40

47 48 50

0

Gain
Maximum Input Signal
Supply Voltage
Rejection
Input Bias Current
Delay to Output

Output Low Level

Output High Level

Rise Time
Fall Time
UVLO Saturation

Upper Threshold
(V

CC

)
Lower Threshold
(V

CC

)

Start–up Current
Operating Supply
Current
V

CC

Zener Voltage

Maximum Duty Cycle
Minimum Duty Cycle

See Notes 2,3
V

PIN1

= 5.0V (Note 2)

V

C

= 12V to 25V

I

SINK

= 20mA

I

SINK

= 200mA

I

SOURCE

= 20mA

I

SOURCE

= 200mA

C

L

= 1nF

C

L

= 1nF

V

CC

= 6V IL= 1mA

1844 Series
1845 Series
1844 Series
1845 Series

V

PIN2

= 0V 1844 Series

V

PIN3

= 0V 1845 Series

I

CC

= 25mA

V/V

V
dB
µA

ns

V

V

ns

V

V

V

mA
mA

V

%

LAB

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IP1844 SERIES
IP1845 SERIES

Semelab plc. Telephone (01455) 556565. Telex: 341927. Fax (01455) 552612.

Prelim. 2/95

ELECTRICAL CHARACTERISTICS (Over Full Operating Temperature Range unless otherwise stated)

CURRENT SENSE SECTION

OUTPUT SECTION

UNDER–VOLTAGE LOCKOUT SECTION

PWM SECTION

NOTES

1. Test Conditions unless otherwise stated:
V

CC

= 15V* , RT= 10kΩ , CT= 3.3nF , f = 52kHz.

*Adjust V

CC

above start threshold before setting at

required level.

All specifications apply over the full operating temperature
range unless otherwise stated.
(See Ordering Information for further details).

2. Parameter measured at trip point of latch with
V

PIN2

= 0V

3. Gain defined as:

∆V

PIN1

A =

∆V

PIN3

0 ≤ V

PIN3

≤ 0.8

TOTAL STANDBY CURRENT

LAB

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IP1845 SERIES

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Prelim. 2/95

APPLICATIONS INFORMATION

V - Pin 4
(Pin 7 for 14 Pin D Package)

8

4

5

GND

REF

V

RC

TT

C

T

R

T

Internal Clock

Internal Clock

Output – Max. Duty Cycle
V - Pin 6
(Pin 10 for 14 Pin D Package)

Output – Max. Duty Cycle
V - Pin 6
(Pin 10 for 14 Pin D Package)

V - Pin 4
(Pin 7 for 14 Pin D Package)

LARGE
SMALL

R

T

C

T

LARGE

SMALL R

T

C

T

Oscillator Waveforms and Maximum Duty Cycle

Oscillator timing capacitor CTis charged by V

REF

through RTand discharged by an
internal current source. During the discharge time, the internal clock signal blanks the
output to the low state. Selection of R

T

and CTtherefore determines both oscillator

frequency and maximum duty cycle.
Charge and discharge times are determined by the formulae:

tc≈ 0.55 RTC

T

td≈ RTC

T

Rn

1

Resultant frequency f =

(t

c

+ td)

For R

T

> 5kΩ,

1.8

Resultant frequency f ≈

(R

TCT

)

.0063 R

T

– 2.3

.0063 – 4

( )

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IP1845 SERIES

Semelab plc. Telephone (01455) 556565. Telex: 341927. Fax (01455) 552612.

Prelim. 2/95

Open–Loop Laboratory Test Fixture

.01 .0 2 .04 .07 .1 .2 .4 .7 1.0

4

3

2

1

0

60

40

20

0

100

80

10 1k100 10k 10M100k 1M

.05 .5.03 .3

OUTPUT CURRENT, SOURCE / SINK (A) FREQUENCY (Hz)

SATURATION VOLTAGE (V)

VOLTAGE GAIN (dB)

OUTPUT SATURATION CHARACTERISTICS

ERROR AMPLIFIER OPEN-LOOP

FREQUENCY RESPONSE

V = 15V

CC

T = 25˚C

A

A

V

f

SOURCE SAT V - )CCV

OH

SINK SAT (V )

OL

(

A

T = –55˚C

–45

–90

–135

–180

0

PHASE (˚)

TYPICAL PERFORMANCE CHARACTERISTICS

APPLICATIONS INFORMATION

High peak current associated with capacitive loads necessitate careful grounding techniques. Timing and bypass capacitors should
be connected close to pin 5 in a single point ground. The transistor and 5K potentiometer are used to sample the oscillator wave
form and apply an adjustable ramp to pin 3.

0.1

µ

F

1k

Ω

1kW

1k

Ω

ERROR AMP

ADJUST

4.7k

Ω

5k

Ω

ADJUST

4.7k

Ω

100k

Ω

2N2222

I

SENSE

R

T

C

T

0.1

µ

F

V

REF

V

CC

OUTPUT

GROUND

1

2

45

7

8

36

I

SENSE

V

REF

V

CC

O/P

GND

COMP

V

FB

RT/C

T

0

20

15

10

0.5

0

10515200

20

15

10

0.5

0

52.5 7.5 10

UNDER VOLTAGE LOCKOUT

1844 SERIES

UNDER VOLTAGE LOCKOUT

1845 SERIES

V (V)

CC

I (mA)

CC

V (V)

CC

I (m A)

CC