KA79M24 [FAIRCHILD]

3-Terminal 0.5A Negative Voltage Regulator; 三端0.5A负稳压器


型号：	KA79M24
厂家：	FAIRCHILD SEMICONDUCTOR
描述：	3-Terminal 0.5A Negative Voltage Regulator 三端0.5A负稳压器线性稳压器IC 调节器电源电路输出元件局域网
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KA79MXX

3-Terminal 0.5A Negative Voltage Regulator

Features

Description

• No external components required

• Output current in excess of 0.5A

• Internal thermal overload

• Internal short circuit current limiting

• Output transistor safe area compensation

• Output voltages of -5V,-6V,-8V, -12V,-15V,-18V,-24V

The KA79MXX series of 3-Terminal medium current

negative voltage regulators are monolithic integrated circuits

designed as fixed voltage regulators. These regulators

employ internal current limiting, thermal shutdown and

safe area compensation making them essentially

indestructible.

TO-220

D-PAK

1. GND 2. Input 3. Output

Schematic Diagram

Rev. 1.0.0

KA79MXX

Absolute Maximum Ratings

Parameter

Symbol

Value

Unit

Input Voltage(for V = -5V to -18V)

(for V = -24V)

-35

-40

Thermal Resistance Junction-Cases

Thermal Resistance Junction-Air

Operating Temperature Range

Storage Temperature Range

°C /W

°C

θJC

θJA

OPR

0 ~ +125

-65 ~ +125

STG

°C

Electrical Characteristics (KA79M05/KA79M05R)

(Refer to test circuit, 0 °C ≤T ≤ +125 °C, l =350mA, V =-10V,unless otherwise specified, C =0.33µF,C =0.1µF)

Parameter

Output Voltage

Symbol

Conditions

T = +25 °C

Min.

Typ.

Max.

Unit

-4.8

-5

-5.2

= 5mA to 350mA

-4.75

-5

-5.25

V = -V7 to -25V

V = -7V to -25V

7.0

2.0

Line Regulation (Note1)

∆V

T =+25°C

V = -8V to -25V

= 5mA to 500mA

Load Regulation (Note1)

Quiescent Current

100

T = +25 °C

3.0

6.0

0.4

= 5mA to 350mA

Quiescent Current Change

∆I

= 200mA

0.4

V = -8V to -25V

Output Voltage Drift

Output Noise Voltage

∆Vo/∆T

= 5mA

-0.2

mV/ °C

µV

f = 10Hz, 100KHz

T = +25 °C

f = 120Hz

V = -8Vto -18V

Ripple Rejection

Dropout Voltage

Short Circuit Current

Peak Current

T =+25 °C, I = 500mA

1.1

140

650

T = +25 °C, V = -35V

T = +25 °C

Note:

1. Load and line regulation are specified at constant junction temperature. Change in V due to heating effects must be taken

into account separately. Pulse testing with low duty is used.

KA79MXX

Electrical Characteristics (KA79M06)

(Refer to test circuit, 0 °C ≤T ≤ +125 °C, l =350mA, V = -11V,unless otherwise specified)

Parameter

Output Voltage

Symbol

Conditions

Min. Typ. Max.

Unit

T = +25 °C

- 5.75 - 6.0 - 6.25

= 5mA to 350mA

V = -8.0V to -25V

- 5.7 - 6.0 - 6.3

V = -8Vto -25V

7.0

2.0

Line Regulation (Note1)

∆V

T =+25°C

V = -9V to -19V

Load Regulation (Note1)

Quiescent Current

T = +25 °C

= 5.0mA to 500mA

120

T = +25 °C

= 5mA to 350mA

0.4

Quiescent Current Change

∆I

V = -8V to -25V

0.4

Output Voltage Drift

Output Noise Voltage

Ripple Rejection

Dropout Voltage

∆V /∆T

= 5mA

0.4

1.1

140

650

mV/ °C

µV

f = 10Hz to 100KHz,T = +25 °C

f = 120Hz,V = -9V to -19V

= 500mA, T = +25 °C

Short Circuit Current

Peak Current

V = -35V, T = +25 °C

T = +25 °C

Note:

1. Load and line regulation are specified at constant junction temperature. Change in V due to heating effects must be taken

into account separately. Pulse testing with low duty is used.

KA79MXX

Electrical Characteristics (KA79M08/KA79M08R)

(Refer to test circuit, 0 °C ≤T ≤ +125 °C, l =350mA, V = -14V,unless otherwise specified)

Parameter

Output Voltage

Symbol

Conditions

Min. Typ. Max.

Unit

T = +25 °C

- 7.7 - 8.0 - 8.3

= 5mA to 350mA

V = -10.5V to -25V

- 7.6 - 8.0 - 8.4

V = -10.5V to -25V

7.0

2.0

Line Regulation (Note1)

∆V

T =+25°C

V = -11V to -21V

Load Regulation (Note1)

Quiescent Current

T = +25 °C

= 5.0mA to 500mA

160

T = +25 °C

= 5mA to 350mA

0.4

Quiescent Current Change

∆I

V = -8V to -25V

0.4

Output Voltage Drift

Output Noise Voltage

Ripple Rejection

Dropout Voltage

∆V /∆T

= 5mA

-0.6

1.1

140

650

mV/ °C

µV

f = 10Hz to 100KHz,T = +25 °C

f = 120Hz,V = -9V to -19V

= 500mA, T = +25 °C

Short Circuit Current

Peak Current

V = -35V, T = +25 °C

T = +25 °C

Note:

1. Load and line regulation are specified at constant junction temperature. Change in V due to heating effects must be taken

into account separately. Pulse testing with low duty is used.

KA79MXX

Electrical Characteristics (KA79M12)

(Refer to test circuit, 0 °C ≤T ≤ +125 °C, l =350mA, V = -19V,unless otherwise specified)

Parameter

Output Voltage

Symbol

Conditions

Min. Typ. Max.

Unit

T = +25 °C

-11.5

-12 -12.5

= 5mA to 350mA

V = -14.5V to -30V

-11.4

-12 -12.6

V = -14.5V to -30V

8.0

3.0

Line Regulation (Note1)

∆V

T =+25°C

V = -15V to -25V

Load Regulation (Note1)

Quiescent Current

T = +25 °C

= 5.0mA to 500mA

240

T = +25 °C

= 5mA to 350mA

0.4

Quiescent Current Change

∆I

V = -14.5V to -30V

0.4

Output Voltage Drift

Output Noise Voltage

Ripple Rejection

Dropout Voltage

∆V /∆T

= 5mA

-0.8

1.1

140

650

mV/ °C

µV

f = 10Hz to 100KHz,T =+25 °C

f = 120Hz,V = -15V to -25V

= 500mA, T = +25 °C

Short Circuit Current

Peak Current

V = -35V, T = +25 °C

T = +25 °C

Note:

1. Load and line regulation are specified at constant junction temperature. Change in V due to heating effects must be taken

into account separately. Pulse testing with low duty is used.

KA79MXX

Electrical Characteristics (KA79M15)

(Refer to test circuit, 0 °C ≤T ≤ +125 °C, l =350mA, V = -23V,unless otherwise specified)

Parameter

Output Voltage

Symbol

Conditions

Min.

Typ.

Max.

Unit

T = +25 °C

- 14.4

- 15

- 15.6

= 5mA to 350mA

V = -17.5V to -30V

-14.25 - 15 -15.75

V = -17.5Vto -30V

9.0

5.0

Line Regulation (Note1)

∆V

T =+25°C

V = -18V to -28V

Load Regulation (Note1)

Quiescent Current

T = +25 °C

= 5.0mA to 500mA

240

T = +25 °C

= 5mA to 350mA

0.4

Quiescent Current Change

∆I

V = -17.5V to -28V

0.4

Output Voltage Drift

Output Noise Voltage

Ripple Rejection

Dropout Voltage

∆V /∆T

= 5mA

-1.0

1.1

140

650

mV/ °C

µV

f = 10Hz to 100KHz,T = +25 °C

f = 120Hz,V = -18.5V to -28.5V

= 500mA, T = +25 °C

Short Circuit Current

Peak Current

V = -35V, T = +25 °C

T = +25 °C

Note:

1. Load and line regulation are specified at constant junction temperature. Change in V due to heating effects must be taken

into account separately. Pulse testing with low duty is used.

KA79MXX

Electrical Characteristics (KA79M18)

(Refer to test circuit, 0 °C ≤T ≤ +125 °C, l =350mA, V = -27V,unless otherwise specified)

Parameter

Output Voltage

Symbol

Conditions

Min. Typ. Max.

Unit

T = +25 °C

- 17.3 - 18 - 18.7

= 5mA to 350mA

V = -21V to -33V

- 17.1 - 18 - 18.9

V = -21V to -33V

9.0

5.0

Line Regulation (Note1)

∆V

T =+25°C

V = -24V to -30V

Load Regulation (Note1)

Quiescent Current

T = +25 °C

= 5.0mA to 500mA

360

T = +25 °C

= 5mA to 350mA

0.4

Quiescent Current Change

∆I

V = -21V to -33V

0.4

Output Voltage Drift

Output Noise Voltage

Ripple Rejection

Dropout Voltage

∆V /∆T

= 5mA

-1.0

110

1.1

140

650

mV/ °C

µV

f = 10Hz to 100KHz,T = +25 °C

f = 120Hz,V = -22V to -32V

= 500mA, T = +25 °C

Short Circuit Current

Peak Current

V = -35V, T = +25 °C

T = +25 °C

Note;

1. Load and line regulation are specified at constant junction temperature. Change in V due to heating effects must be taken

into account separately. Pulse testing with low duty is used.

KA79MXX

Electrical Characteristics (KA79M24)

(Refer to test circuit, 0 °C ≤T ≤ +125 °C, l =350mA, V = -33V,unless otherwise specified)

Parameter

Output Voltage

Symbol

Conditions

Min. Typ. Max.

Unit

T = +25 °C

- 23 - 24 - 25

= 5mA to 350mA

V = -27V to -38V

- 22.8 - 24 - 25.2

V = -27V to -38V

9.0

5.0

Line Regulation (Note1)

∆V

T =+25°C

V = -30V to -36V

Load Regulation (Note1)

Quiescent Current

T = +25 °C

= 5.0mA to 500mA

300

T = +25 °C

= 5mA to 350mA

0.4

Quiescent Current Change

∆I

V = -27V to -38V

0.4

Output Voltage Drift

Output Noise Voltage

Ripple Rejection

Dropout Voltage

∆V /∆T

= 5mA

-1.0

180

1.1

140

650

mV/ °C

µV

f = 10Hz to 100KHz,T = +25 °C

f = 120Hz,V = -28V to -38V

= 500mA, T = +25 °C

Short Circuit Current

Peak Current

V = -35V, T = +25 °C

T = +25 °C

Note:

1. Load and line regulation are specified at constant junction temperature. Change in V due to heating effects must be taken

into account separately. Pulse testing with low duty is used.

KA79MXX

Typical Applications

Figure 1. Fixed Output Regulator

Figure 2. Variable Output

Notes:

1. Required for stability. For value given, capacitor must be solid tantalum. 25µF aluminum electrolytic may be substituted.

2. C improves transient response and ripple rejection. Do not increase beyond 50µF.

KA79MXX

Mechanical Dimensions

Package

Dimensions in millimeters

TO-220

4.50 ±0.20

9.90 ±0.20

(8.70)

+0.10

–0.05

1.30

ø3.60 ±0.10

1.27 ±0.10

1.52 ±0.10

0.80 ±0.10

+0.10

–0.05

0.50

2.40 ±0.20

2.54TYP

[2.54 ±0.20

]

[2.54 ±0.20]

10.00 ±0.20

KA79MXX

Mechanical Dimensions ^(Continued)

Package

Dimensions in millimeters

D-PAK

6.60 ±0.20

5.34 ±0.30

2.30 ±0.10

0.50 ±0.10

(0.50)

(4.34)

(0.50)

MAX0.96

0.76 ±0.10

0.50 ±0.10

1.02 ±0.20

2.30 ±0.20

2.30TYP

[2.30±0.20]

6.60 ±0.20

(5.34)

(5.04)

(1.50)

(2XR0.25)

0.76 ±0.10

KA79MXX

Ordering Information

Product Number

KA79M05

Package

Operating Temperature

KA79M06

KA79M08

KA79M12

TO-220

D-PAK

KA79M15

0 ~ + 125°C

KA79M18

KA79M24

KA79M05R

KA79M08R

KA79M12R

KA79MXX

DISCLAIMER

FAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO ANY

PRODUCTS HEREIN TO IMPROVE RELIABILITY, FUNCTION OR DESIGN. FAIRCHILD DOES NOT ASSUME ANY

LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN; NEITHER

DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS.

LIFE SUPPORT POLICY

FAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES

OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF FAIRCHILD SEMICONDUCTOR

CORPORATION. As used herein:

1. Life support devices or systems are devices or systems

which, (a) are intended for surgical implant into the body,

or (b) support or sustain life, and (c) whose failure to

perform when properly used in accordance with

instructions for use provided in the labeling, can be

reasonably expected to result in a significant injury of the

user.

2. A critical component in any component of a life support

device or system whose failure to perform can be

reasonably expected to cause the failure of the life support

device or system, or to affect its safety or effectiveness.

www.fairchildsemi.com

6/11/01 0.0m 001

Stock#DSxxxxxxxx

2001 Fairchild Semiconductor Corporation

KA79M24 [FAIRCHILD]

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