MSK5010-12BTS [ANAREN]

HIGH CURRENT, SUPER LOW DROPOUT ADJUSTABLE VOLTAGE REGULATOR;


型号：	MSK5010-12BTS
厂家：	ANAREN MICROWAVE
描述：	HIGH CURRENT, SUPER LOW DROPOUT ADJUSTABLE VOLTAGE REGULATOR
文件：	总7页 (文件大小：743K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

MIL-PRF-38534 AND 38535 CERTIFIED FACILITY

HIGH CURRENT,

5010

SUPER LOW DROPOUT

FIXED VOLTAGE REGULATORS

SERIES

FEATURES:

Extremely Low Dropout Voltage 0.45V @ 10 Amps

Available in 3.3V, 5.0V and 12.0V versions

Output Voltages Are Internally Set to ±1.5% maximum

TTL Level Enable Pin

Electrically Isolated Case

Low Quiescent Current

Output Current to 10 Amps

Available in Two Package Styles

Available with Three Lead Form Options

Contact MSK for MIL-PRF-38534 Qualiﬁcation Status

DESCRIPTION:

The MSK5010 series voltage regulators are available in a +3.3V, +5.0V or +12.0V ﬁxed output conﬁguration. All three

boast ultra low dropout speciﬁcations due to the utilization of a MOSFET output pass transistor with extremely low Rds(on).

Dropout voltages of 0.45V at 10 amps are typical, in this conﬁguration, which drives efﬁciency up and power dissipation

down. Accuracy is guaranteed with a 1.5% maximum initial output voltage tolerance that varies only ±2% with temperature.

The MSK5010 series is packaged in a space efﬁcient 5 pin SIP that is electrically isolated from the internal circuitry allowing

direct heat sinking for maximum heat dissipation.

EQUIVALENT SCHEMATIC

TYPICAL APPLICATIONS

High Efﬁciency, High Current Linear Regulators

System Power Supplies

Constant Voltage/Current Regulators

Switching Power Supply Post Regulators

8548-149 Rev. J 2/15

ABSOLUTE MAXIMUM RATINGS

VIN

Storage Temperature Range

Lead Temperature Range

(10 Seconds)

Case Operating Temperature

MSK5010 Series

-65°C to +150°C

300°C

Input Voltage

Enable Voltage

Output Current

Junction Temperature

36V

TST

TLD

VEN

IOUT

-0.3V to 36V

10A within SOA

+175°C

-40°C to +85°C

-55°C to +125°C

MSK5010B Series

ELECTRICAL SPECIFICATIONS

MSK5010B SERIES

Group A

MSK5010 SERIES

Test Conditions

Parameter

Units

Subgroup Min.

Typ.

±0.3

±1.0

0.002

0.45

±0.5

±0.3

±0.5

4.5

Max. Min.

Typ.

±0.5

Max.

Output Voltage Tolerance

IOUT=100mA; VIN=VOUT+3V

±1.5

±2.0

0.010

0.75

±1.0

±2.0

±1.0

±1.5

2,3

Dropout Voltage 2

Load Regulation

Line Regulation

IOUT= 0A

IOUT=10A

0.002

0.5

±0.5

0.015

1.0

±1.5

VIN=VOUT+3V

100mA ≤ IOUT ≤ 9A

(VOUT +1.5V) ≤ VIN ≤ (VOUT+15V)

IOUT=100mA

2,3

±0.5

±1.5

2,3

Quiescent Current

VEN=VIN; VIN=VOUT+3V; IOUT=0A

VEN=0V; VIN=VOUT+3V; IOUT=0A

f=120Hz

1,2,3

4.5

0.15

5.0

µA

°C/W

1,2,3

0.15

5.0

Ripple Rejection

Thermal Resistance

Enable Input Voltage

Junction to Case

0.8

0.7

1.2

1.0

0.7

HIGH

2.4

1.2

2.4

LOW

HIGH

LOW

1.2

0.8

Enable Input Current

12.5

0.8

µA

µS

Output Settling Time

Input Voltage Range

To within 10mV

NOTES:

PART

NUMBER VOLTAGE

OUTPUT

1 Output decoupled to ground using 47µF minimum capacitor unless otherwise speciﬁed.

2 Guaranteed by design but not tested. Typical parameters are representative of actual device

performance but are for reference only.

3 All output parameters are tested using a low duty cycle pulse to maintain TJ = TC.

4 Industrial grade devices shall be tested to subgroup 1 unless otherwise speciﬁed.

5 Military grade devices ('B' sufﬁx) shall be 100% tested to subgroups 1,2 and 3.

6 Subgroup 1

Subgroup 2

Subgroup 3

MSK5010-3.3

MSK5010-5.0

MSK5010-12

+3.3V

+5.0V

+12.0V

TA=TC=+25°C

TA=TC=+125°C

TA=TC= -55°C

7 Please consult the factory if alternate output voltages are required.

8 After application of enable pulse.

9 Continuous operation at or above absolute maximum ratings may adversly effect the device performance and/or life cycle.

10 Internal solder reﬂow temperature is 180°C, do not exceed.

8548-149 Rev. J 2/15

APPLICATION NOTES

MINIMIZING OUTPUT RIPPLE:

HEAT SINK SELECTION:

To select a heat sink for the MSK5010, the following formula for

convective heat ﬂow must be used.

The output voltage ripple of the MSK5010 series voltage regulators

can be minimized by placing a ﬁlter capacitor from the output to

ground. The optimum value for this capacitor may vary from one

application to the next and is best determined by experimentation.

Transient load response can also be improved by placing a (10uF

to 20uF) capacitor directly across the load.

Governing Equation:

Tj = Pd x (Rθjc + Rθcs + Rθsa) + Ta

WHERE:

Tj = Junction Temperature

Pd = Total Power Dissipation

CASE CONNECTIONS:

Rθjc = Junction to Case Thermal Resistance

Rθcs = Case to Heat Sink Thermal Resistance

Rθsa = Heat Sink to Ambient Thermal Resistance

Ta = Ambient Temperature

The case of the MSK5010 is electrically isolated from the internal

circuitry so that a direct connection can be made to the heat sink

for most efﬁcient heat dissipation. However, it may be necessary

in some applications to connect the case to ground. Grounding

the case will help eliminate oscillations and produce a clean, noise

free output.

First, the power dissipation must be calculated as follows:

Power Dissipation = (Vin - Vout) x Iout

Next, the user must select a maximum junction temperature. The

absolute maximum allowable junction temperature is 175°C. The

equation may now be rearranged to solve for the required heat sink

to ambient thermal resistance (Rθsa).

LOAD REGULATION:

For best results, the ground pin should be connected directly to

the load (see next note). This effectively reduces the ground loop

effect and eliminates excessive voltage drop in the sense leg. It is

also important to keep the output connection between the regulator

and the load as short as possible since this directly affects the load

regulation. For example, if 20 gauge wire were used which has a

resistance of about .008 ohms per foot, this would result in a drop

of 8mV/ft at a load current of 1 amp.

EXAMPLE;

An MSK5010-3.3 is conﬁgured for Vin = +7V and Vout = +3.3V.

Iout is a continuous 10A DC level. The ambient temperature is

+25°C. The maximum desired junction temperature is 150°C. Rθjc

= 0.8°C/W and Rθcs = 0.15°C/W typically.

Power Dissipation = (7V - 3.3V) x (10A)

= 37 Watts

LOAD CONNECTIONS:

Solve for Rθsa:

In voltage regulator applications where very large load currents

are present, the load connection is very important. The path con-

necting the output of the regulator to the load must be extremely

low impedance to avoid affecting the load regulation speciﬁcations.

Any impedance in this path will form a voltage divider with the load.

The same holds true for the connection from the low end of the

load to ground. For best load regulation, the low end of the load

must be connected directly to pin 2 of the MSK5010 and not to a

ground plane inches away from the hybrid.

Rθsa = 150°C - 25°C - 0.8°C/W - 0.15°C/W

37W

In this example, a heat sink with a thermal resistance of no more

than 2.43°C/W must be used to maintain a junction temperature of

no more than 150°C. The Thermalloy Corporation makes a heat

sink with a thermal resistance of 2.2°C/W that would work well for

this application.

(See Thermalloy part number 7023)

ENABLE/SHUTDOWN PIN:

POWER DISSIPATION:

The MSK5010 series of voltage regulators are equipped with a

TTL compatible ENABLE pin. ATTL high level on this pin activates

the internal bias circuit and powers up the device. A TTL low level

on this pin places the controller in shutdown mode and the device

draws a maximum of 5µA of quiescent current.

The output pass transistor in the MSK5010 is rated to dissipate near-

ly 100 watts. The limiting factor of this device is effective dissipation

of heat generated under such conditions. Careful consideration

must be paid to heat dissipation and junction temperature when

applying this device.

CHARGE CAPACITOR:

For all applications, the user must connect a 1.0uF capacitor from

pin 5 directly to ground. This capacitor is part of the circuit which

drives the gate of the internal MOSFET. Approximately three times

the voltage seen on the input will appear across this capacitor.

Careful attention must be paid to capacitor voltage rating since

voltages larger than the power supply are present.

8548-149 Rev. J 2/15

TYPICAL PERFORMANCE CURVES

8548-149 Rev. J 2/15

MECHANICAL SPECIFICATIONS

ESD TRIANGLE INDICATES PIN 1

WEIGHT=7.7 GRAMS TYPICAL

ALL DIMENSIONS ARE SPECIFIED IN INCHES

ORDERING INFORMATION

MSK5010-3.3 B T U

LEAD CONFIGURATIONS

S= STRAIGHT; U= BENT UP; D= BENT DOWN

PACKAGE STYLE

T= TOP TAB

SCREENING

BLANK=INDUSTRIAL; B=MIL-PRF-38534 CLASS H

OUTPUT VOLTAGE

3.3=+3.3V; 5=+5.0V; 12=+12.0V

GENERAL PART NUMBER

THE ABOVE EXAMPLE IS A +3.3V, MILITARY REGULATOR USING THE TOP TAB PACKAGE WITH LEADS BENT UP.

8548-149 Rev. J 2/15

MECHANICAL SPECIFICATIONS CONT'D

ESD TRIANGLE INDICATES PIN 1

WEIGHT=8 GRAMS TYPICAL

ALL DIMENSIONS ARE SPECIFIED IN INCHES

ORDERING INFORMATION

MSK5010-3.3 B Z U

LEAD CONFIGURATIONS

S= STRAIGHT; U= BENT UP; D= BENT DOWN

PACKAGE STYLE

Z= Z PACK

SCREENING

BLANK=INDUSTRIAL; B=MIL-PRF-38534 CLASS H

OUTPUT VOLTAGE

3.3=+3.3V; 5=+5.0V; 12=+12.0V

GENERAL PART NUMBER

8548-149 Rev. J 2/15

REVISION HISTORY

MSK

www.anaren.com/msk

The information contained herein is believed to be accurate at the time of printing. MSK reserves the right to make

changes to its products or speciﬁcations without notice, however, and assumes no liability for the use of its products.

Please visit our website for the most recent revision of this datasheet.

Contact MSK for MIL-PRF-38534 qualiﬁcation status.

8548-149 Rev. J 2/15

MSK5010-12BTS [ANAREN]

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