MP8125_技术文档

MP8125

550mA, 8-14V Input, LNB Power Supply

and Control Voltage Regulator

The Future of Analog IC Technology

DESCRIPTION

FEATURES

The MP8125 is a voltage regulator designed to

provide efficient, low noise power to the

Satellite receiver’s RF LNB (Low Noise Block)

converter via coaxial cable through a DiSEqC

1.x compatible link that receives instructions

from a dedicated controller.

•

DiSEqC 1.x Compatibility

Up to 550mA Output Current

8V to 14V Input Voltage

Boost Converter with Internal Switch

Low Noise LDO Output

Built-in 22kHz Tone Signal Generator

Programmable Current Limit

1V Line Drop Compensation

Adjustable Soft-start Time

POK Indicator

The MP8125 integrates a current mode boost

regulator followed by a tracking linear regulator.

The boost regulator provides a clean and quiet

power source that will not contaminate the low

noise RF signal down converted to the receiver.

The tracking linear regulator protects the output

against overload or short.

Short Circuit Protection

Over Temperature Protection

TSSOP16 Exposed Pad and 24-pin QFN (4

x 4mm) Packages

The MP8125 provides a number of features

described in the European EUTELSAT

specification (DiSEqC) including: voltage

selection of horizontal or vertical polarization

directions of LNB and a selectable V_OUT

compensation for voltage drop on the long

coaxial cable. In accordance with DiSEqC

standard, a tone signal of 22kHz is generated

by an internal oscillator and can be activated or

deactivated onto output by EXTM pin.

APPLICATIONS

•

LNB Power Supply and Control for Satellite

Set Top Boxes

All MPS parts are lead-free and adhere to the RoHS directive.For MPS green

status, please visit MPS website under Quality Assurance. “MPS” and “The

Future of Analog IC Technology” are Registered Trademarks of Monolithic

Power Systems, Inc.

The MP8125 is available in thermally enhanced

TSSOP16 and 24-pin QFN (4 x 4mm) packages.

TYPICAL APPLICATION

MP8125 Rev. 1.11

5/9/2013

www.MonolithicPower.com

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1

MP8125 – LNB POWER SUPPLY AND CONTROL VOLTAGE REGULATOR

ORDERING INFORMATION

Part Number

MP8125EF*

MP8125DR

Package

TSSOP-16

Top Marking

MP8125

Free Air Temperature (T_A)

-20°C to +85°C

QFN24(4x4mm)

MP8125

-40°C to +85°C

* For Tape & Reel, add suffix –Z (e.g. MP8125EF–Z).

For RoHS compliant packaging, add suffix –LF (e.g. MP8125EF–LF–Z)

PACKAGE REFERENCE

TOP VIEW

SGND

BYPASS

VDD

1

2

3

4

5

6

7

8

16 PGND

15 SW

24

23 22

21

20 19

1

2

3

4

5

6

18

17

16

15

14

13

NC

VDD

NC

14 BST

BST

COMP

13 VBOOST

12 VOUT

11 ILIMIT

10 TCAP

NC

VBOOST

VOUT

EXPOSED PAD

CONNECT TO GND

EN

COMP

EN

LINEDROP

POK

LINEDROP

13V/18V

9

EXTM

7

8

9

10 11 12

TSSOP-16

QFN24

Thermal Resistance ⁽⁴⁾

θ_JA

θ_JC

(1)

ABSOLUTE MAXIMUM RATINGS

VDD ................................................-0.3V to 16V

VOUT, SW, VBOOST ....................-0.3V to 25V

BST.......................................................V_SW+7V

All Other Pins................................-0.3V to 6.5 V

Continuous Power Dissipation.….(T_A=+25°C) ⁽²⁾

TSSOP-16……………………………………2.8W

QFN24(4x4mm)………………………………2.9W

Junction Temperature...............................150°C

Lead Temperature ....................................260°C

Storage Temperature................. -65°C to 150°C

TSSOP-16...............................45 ....... 8....°C/W

QFN24(4x4mm) ......................42 ....... 9....°C/W

Notes:

1) Exceeding these ratings may damage the device.

2) The maximum allowable power dissipation is a function of the

maximum junction temperature T_J(MAX), the junction-to-

ambient thermal resistance θ_JA, and the ambient temperature

T_A. The maximum allowable continuous power dissipation at

any ambient temperature is calculated by P_D(MAX)=(T_J(MAX)-

T_A)/ θ_JA. Exceeding the maximum allowable power dissipation

will cause excessive die temperature, and the regulator will go

into thermal shutdown. Internal thermal shutdown circuitry

protects the device from permanent damage.

Recommended Operating Conditions ⁽³⁾

Supply Voltage V_IN..............................8V to 14V

Output Voltage V_OUT............... 13V/14V/18V/19V

Maximum Junction Temp. (T_J)...............+125°C

3) The device is not guaranteed to function outside of its

operating conditions.

4) Measured on JESD51-7 4-layer PCB

MP8125 Rev. 1.11

5/9/2013

www.MonolithicPower.com

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2

MP8125 – LNB POWER SUPPLY AND CONTROL VOLTAGE REGULATOR

ELECTRICAL CHARACTERISTICS

V_IN= 12V, T_A= 25°C, unless otherwise noted.

Parameter

Symbol Condition

Min

8

Typ

Max

14

8

Units

General

Input Voltage Range

Input Supply Current ⁽⁵⁾

Under Voltage Lockout

UVLO Hysteresis

V_IN

12

5

V

mA

V

I_IN

EN=High, no load

UVLO V_INrising

7

350

mV

V

V_{EN_High}V_ENrising

2

EN Input Logic Threshold

V_{EN_Low}V_ENfalling

0.8

V

V_{13/18_High}V_13V/18Vrising

V_{13/18_Low}V_13V/18Vfalling

V_{LD_High}V_LINEDROPrising

V_{LD_Low}V_LINEDROPfalling

2

V

13V/18V

Threshold

Input

Logic

V

2

V

LINEDROP

Threshold

V

TCAP pin current

I_CHA

I_BKLK

V_BYP

TCAP capacitor charging

7

0.7

5

μA

Output Backward Leakage

Current ⁽⁶⁾

EN=Low, V_OUTis clamped to

24V, VBOOST is float

1

mA

V

Voltage on BYPASS pin

SWITCHING REGULATOR

Boost Switch On Resistance

R_DSONI_OUT=500mA

500

352

mΩ

(5)

Boost Frequency

LINEAR REGULATOR

Dropout Voltage ⁽⁵⁾

OUTPUT

kHz

V_BOOST-V_OUT, I_OUT=500mA

0.9

V

LINEDROP=Low,

13V/18V=Low, I_OUT=10-100mA

12.8

17.6

13.2

18.14

14.2

13.6

18.7

V

LINEDROP=Low,

13V/18V=High, I_OUT=10-100mA

Output Voltage

V_OUT

LINEDROP=High,

13V/18V=Low, I_OUT=10-100mA

13.72

18.57

14.58

LINEDROP=High,

13V/18V=High, I_OUT=10-100mA

19.14

4

19.73

40

V

Output Line Regulation

8V≤V_IN≤14V; I_OUT=100mA

mV

10mA≤I_OUT≤500mA,

13V/18V=Low

20

Output Load Regulation ⁽⁵⁾

10mA≤I_OUT≤500mA,

30

mV

13V/18V=High

MP8125 Rev. 1.11

5/9/2013

www.MonolithicPower.com

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MP8125 – LNB POWER SUPPLY AND CONTROL VOLTAGE REGULATOR

ELECTRICAL CHARACTERISTICS (continued)

V_IN= 12V, T_A= 25°C, unless otherwise noted.

Parameter

Symbol Condition

Min

20

Typ

Max

Units

TONE Signal

Tone Signal Frequency

f_TONE

22

24

2

kHz

V

T_A= 25°C

V_{EXTM_High}V_EXTMrising

V_{EXTM_Low}V_EXTMfalling

EXTM Input Logic Threshold

0.8

V

1.5

Delay Time of Tone Signal

Activated or Deactivated ⁽⁵⁾

Delay time after EXTM goes

high or low

t_DELAY

V_PP

f_TONE

Peak-to-Peak Amplitude

Rise and Fall Time

I_LOAD= 0 to 100mA

0.55

600

0.65

8

0.9

V

R_L=1kΩ, C_L=0.1μF

μs

Over-Current Protection

Output Current Limit

I_LIMIT

T_OFF

R_LIMIT=10kΩ

850

2

1100

mA

s

Dynamic Overload

Protection Off Time

Time of attempt to restart

Dynamic Overload

Protection On Time

T_ON

Time to onset of shutdown

50

ms

POK

POK Upper Trip Threshold

V_FBwith Respect to Nominal

12

%

(5)

POK Lower Trip Threshold

POK Output Lower Voltage

Thermal Protection

V_FBwith Respect to Nominal

I_SINK= 5mA

-12

%

V

0.3

Over Temperature

Shutdown ⁽⁵⁾

150

20

°C

OTP Hysteresis

Note:

5) Guaranteed by design.

6) Shall withstand the back voltage for an indefinite period of time. On removal of the fault condition the device returns to normal operation

MP8125 Rev. 1.11

5/9/2013

www.MonolithicPower.com

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MP8125 – LNB POWER SUPPLY AND CONTROL VOLTAGE REGULATOR

PIN FUNCTIONS

Pin #

TSSOP-16

Pin #

QFN24

Name

Description

1

2

3

4

22

SGND

BYPASS

VDD

Analog ground.

23, 24

Connect a bypass capacitor for the internal regulator.

Input supply pin.

2

4

COMP

Compensation pin for Boost regulator (47nF & 19.6kΩ is suggested).

Regulator On/Off Control Input. When this pin is low, the output is

disabled. A high level at EN turns on the converter. Connect EN to the

input source (through a 100kΩ pull-up resistor if VIN > 6V) for

automatic startup. EN cannot be left floating.

5

6

5

6

EN

This pin provides selectable V_OUTcompensation for voltage drop on the

LINEDROP long coaxial cable. When the LINEDROP is high, the LDO output is 1V

increased. LINEDROP cannot be left floating.

Power OK. A high output indicates that LDO output is within ±12% of

7

8

9

7

8

POK

13V/18V

EXTM

nominal value. A low output means that LDO output is outside this

window.

Select 13V or 18V for output voltage. High level for 18V while low level

for 13V. This pin cannot be left floating.

External modulation input for 22kHz signaling. A high level at EXTM

turns on 22kHz signal and a low level disables it. EXTM cannot be left

floating.

10

Internal voltage reference for LDO output, A soft-start capacitor can be

connected to this pin to set rise time of the output voltage. The

capacitor should be very close to this pin and SGND, and the route

should keeps far away from any noise like SW copper.

10

11

12

TCAP

ILIMIT

The ILIMIT is used to set the value of the output current limit of LDO. A

resistor from ILIMIT to GND programs the limit.

12

13

14

13, 14

15, 16

17

VOUT

VBOOST

BST

Output voltage.

Input of the internal LDO.

Supply for the internal LDO driver.

SW is the drain of the internal MOSFET switch of Boost stage.

Connect the power inductor and output rectifier to SW.

15

16

19

SW

20, 21

PGND

NC

Power ground.

Not Connect.

1, 3, 9, 18

MP8125 Rev. 1.11

5/9/2013

www.MonolithicPower.com

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5

MP8125 – LNB POWER SUPPLY AND CONTROL VOLTAGE REGULATOR

TYPICAL PERFORMANCE CHARACTERISTICS

Performance waveforms are tested on the evaluation board of the DESIGN EXAMPLE section.

V_IN=12V, V_LINEDROP=5V, V_EXTM=0V, T_A= +25ºC, unless otherwise noted.

MP8125 Rev. 1.11

5/9/2013

www.MonolithicPower.com

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6

MP8125 – LNB POWER SUPPLY AND CONTROL VOLTAGE REGULATOR

TYPICAL PERFORMANCE CHARACTERISTICS (continued)

Performance waveforms are tested on the evaluation board of the DESIGN EXAMPLE section.

V_IN=12V, V_LINEDROP=5V, V_EXTM=0V, I_OUT=0.55A, T_A= +25ºC, unless otherwise noted.

MP8125 Rev. 1.11

5/9/2013

www.MonolithicPower.com

MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.

7

MP8125 – LNB POWER SUPPLY AND CONTROL VOLTAGE REGULATOR

BLOCK DIAGRAM

8~14V Vin

COMP

VDD

TCAP

SW

EN

Internal

Regulator

VBOOST

Boost

Driver

BYPASS

PGND

BST

Vref

Charge

Pump

13V / 18V

Switch

13V/18V

SGND

VOUT

13V/18V

+1V Offset

POK

LINEDROP

POK

Frequency

Divider

22kHz

Shaper

ILIMIT

Current

Limit

EXTM

Figure 1—Internal Function Block Diagram

MP8125 Rev. 1.11

5/9/2013

www.MonolithicPower.com

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MP8125 – LNB POWER SUPPLY AND CONTROL VOLTAGE REGULATOR

OPERATION

The MP8125 is a single output voltage regulator

for providing both supply voltage and control

signal from satellite set-top box modules to LNB

(low noise block) of the antenna port.

Current Limit

The output current is limited dynamically and

the threshold can be programmed by an

external resistor connected to the ILIMIT pin

according to the following formula:

The MP8125 has an integrated boost converter

that, from a single supply source between 8V

and 14V, generates the voltage to enable the

linear post-regulator to work at a minimum

dissipated power.

I_LIMIT= 8500/R_LIMIT

When an overload is detected, the output

current will be regulated at the current limit level

for 50 ms. After this time period, if the overload

is still detected, the output will be shut down for

2s before the output is resumed.

Boost Converter/Linear Regulator

The boost converter is a fixed frequency, non-

synchronous voltage regulator with peak

current mode control. The operating frequency

is 352kHz typically, which is 16 times the 22kHz

internal tone frequency.

For the boost converter, it integrates cycle-by-

cycle over current limit function, which can

guarantee the part works with full load.

Power Good (POK)

To reduce power dissipation, the boost

converter operates in a pulse-skipping mode at

light load.

POK is connected to an internally open-drain

device. When output voltage is out of +/- 12% of

normal value, POK will be pulled down.

Otherwise, it will be pulled high.

The output voltage of boost converter tracks the

requested output voltage to allow the linear

regulator to work with minimum drop-out

voltage.

Tone Generation

In accordance with DiSEqC standards, a tone

signal of 22kHz is generated by an internal

oscillator and activated/deactivated by EXTM

pin. A high level on EXTM activates the internal

tone signal and modulates it onto the output to

provide the LNB control information. A low level

will deactivate the 22kHz signal.

13V/18V Switching

With the logic input pin 13V/18V, the output

voltage can be set to 13V or 18V to select

different polarization directions of LNB. A logic

high level on this pin will set the output to 18V

while a low level set it to 13V.

The tone signal will be activated or deactivated

onto the output within 1.5 periods after EXTM

goes high or low. Please refer to the Figure 2 (T

is the period of tone signal.).

LINEDROP Control

In order to compensate the excess of voltage

drop along the coaxial cable, a voltage

compensation function is integrated. If set a

high level on LINEDROP pin, the output voltage

can be increased by 1 V. A low level will disable

the function.

1.5T

EXTM

1.5T

Tone

Output

Soft Start

Figure 2—Tone Signal on Output

Soft start is implemented via external capacitor

(C_SS). With the required slew rate (k) of the

output voltage, the value of C_SScan be obtained

using the following formula:

Thermal Protection

When the junction temperature exceeds

+150°C, the part will be shut down. Once the

junction temperature is cooled enough, typically

130°C, the part will re-start automatically.

C_SS= (15×I_CHA)/k

Where I_CHAis 7 μA typ.

MP8125 Rev. 1.11

5/9/2013

www.MonolithicPower.com

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9

MP8125 – LNB POWER SUPPLY AND CONTROL VOLTAGE REGULATOR

APPLICATION INFORMATION

Selecting the Inductor of Boost Converter

An inductor with a DC current rating of at least

25% higher than the maximum load current is

recommended. For most designs, the inductance

value can be derived from the following equation.

COMPONENT SELECTION

Selecting the Input Capacitor

The input capacitor (C1) is required to maintain

the DC input voltage. Ceramic capacitors with

low ESR/ESL types are recommended. The input

voltage ripple can be estimated by the below

formula. Typically, a 10μF X7R ceramic capacitor

is recommended.

V (V_OUT− V )

IN

L =

f_s⋅ V_OUT⋅ ΔI_L

Where ∆I_Lis the inductor ripple current. Choose

inductor ripple current to be approximately 30%

of the maximum load current.

⎛

⎞

⎟

⎠

V

IN

ΔV =

⋅ 1−

⎜

IN

8f_s²⋅L⋅C1

V_OUT

⎝

Selecting the Rectifier Diode of Boost

Converter

Setting the Output Capacitor of Boost

Converter

The output current to the step-up converter is

discontinuous, therefore a capacitor is essential

to supply the AC current to the load. Use low

ESR capacitors for the best performance. The

output voltage ripple can be estimated by the

below formula.

The high switching frequency demands high-

speed

rectifiers.

Schottky

diodes

are

recommended for most applications because of

the fast recovery time and low forward voltage.

Typically, a 2A Schottky diode is recommended

for the boost converter.

⎛

⎞

⎟

⎠

V_OUT

V

IN

DESIGN EXAMPLE

Below is a design example following the

application guidelines for the specifications:

ΔV_OUT

=

⋅ 1−

⎜

f_s⋅R_L⋅C2

V_OUT

⎝

Where R_Lis the value of load resistor.

V_IN

V_OUT

12V

19V

Ceramic capacitors with X7R dielectrics are

highly recommended because of their low ESR

and small temperature coefficient. Typically, a

22μF X7R ceramic capacitor is recommended.

The detailed application schematic is shown in

Figure 3. The typical performance and circuit

waveforms have been shown in the Typical

Performance Characteristics section. For more

possible applications of this device, please refer

to related Evaluation Board Data Sheet.

MP8125 Rev. 1.11

5/9/2013

www.MonolithicPower.com

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10

MP8125 – LNB POWER SUPPLY AND CONTROL VOLTAGE REGULATOR

Figure 3—Detailed Application Schematic

MP8125 Rev. 1.11

5/9/2013

www.MonolithicPower.com

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MP8125 – LNB POWER SUPPLY AND CONTROL VOLTAGE REGULATOR

PACKAGE INFORMATION

TSSOP16

4.20

TYP

0.40

TYP

0.65

BSC

4.90

5.10

16

9

1.60

TYP

4.30

4.50

6.20

6.60

3.30

TYP

5.80

TYP

PIN 1 ID

1

8

TOP VIEW

RECOMMENDED LAND PATTERN

0.80

1.05

1.20 MAX

SEATING PLANE

0.09

0.20

0.19

0.30

0.00

0.15

0.65 BSC

SEE DETAIL "A"

SIDE VIEW

FRONT VIEW

GAUGE PLANE

0.25 BSC

3.65

4.15

0.45

0.75

0^o-8^o

DETAIL “A”

2.80

3.30

NOTE:

1) ALL DIMENSIONS ARE IN MILLIMETERS.

2) PACKAGE LENGTH DOES NOT INCLUDE MOLD FLASH,

PROTRUSION OR GATE BURR.

3) PACKAGE WIDTH DOES NOT INCLUDE INTERLEAD FLASH

OR PROTRUSION.

4) LEAD COPLANARITY(BOTTOM OF LEADS AFTER FORMING)

SHALL BE0.10 MILLIMETERS MAX.

5) DRAWING CONFORMS TO JEDEC MO-153, VARIATION ABT.

6) DRAWING IS NOT TO SCALE.

BOTTOM VIEW

MP8125 Rev. 1.11

5/9/2013

www.MonolithicPower.com

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12

MP8125 – LNB POWER SUPPLY AND CONTROL VOLTAGE REGULATOR

QFN24 (4X4mm)

3.90

4.10

2.50

2.80

PIN 1 ID

SEE DETAIL A

19

24

PIN 1 ID

MARKING

18

13

1

6

0.50

BSC

2.50

2.80

3.90

4.10

PIN 1 ID

INDEX AREA

0.18

0.30

12

7

0.35

0.45

TOP VIEW

BOTTOM VIEW

PIN 1 ID OPTION A

0.30x45º TYP.

PIN 1 ID OPTION B

R0.25 TYP.

0.80

1.00

0.20 REF

0.00

0.05

DETAIL A

SIDE VIEW

3.90

2.70

NOTE:

1) ALL DIMENSIONS ARE IN MILLIMETERS.

2) EXPOSED PADDLE SIZE DOES NOT INCLUDE MOLD FLASH.

3) LEAD COPLANARITY SHALL BE 0.10 MILLIMETER MAX.

4) DRAWING CONFIRMS TO JEDEC MO-220, VARIATION VGGD.

5) DRAWING IS NOT TO SCALE.

0.70

0.25

0.50

RECOMMENDED LAND PATTERN

NOTICE: The information in this document is subject to change without notice. Please contact MPS for current specifications.

Users should warrant and guarantee that third party Intellectual Property rights are not infringed upon when integrating MPS

products into any application. MPS will not assume any legal responsibility for any said applications.

MP8125 Rev. 1.11

5/9/2013

www.MonolithicPower.com

MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.

13


型号：	MP8125
厂家：	MONOLITHIC POWER SYSTEMS
描述：	550mA, 8-14V Input, LNB Power Supply and Control Voltage Regulator
文件：	总13页 (文件大小：341K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

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