AN13208A [PANASONIC]

3-ch. video driver IC supporting HD with charge pump; 3 -CH 。视频驱动IC支持HD与电荷泵


型号：	AN13208A
厂家：	PANASONIC
描述：	3-ch. video driver IC supporting HD with charge pump 3 -CH 。视频驱动IC支持HD与电荷泵消费电路商用集成电路音频放大器视频放大器信息通信管理驱动泵
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中文：	中文翻译
下载：	下载PDF数据表文档文件

DATA SHEET

Part No.

AN13208A

Package Code No.

ULGA020-L-0404

Publication date: October 2008

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Contents

Overview ………………………………………………….…………………………………………………………. 3

Features ………………………………………………….…………………………………………………………. 3

Applications ……….………………………………………………………………………………………………… 3

Package ……………………………………………………………………………………………………………. 3

Type …………………………………...……………………………………………………………………………. 3

Application Circuit Example (Block Diagram) ….……………………………………………………………… 4

Pin Descriptions …………………..………………………………………………………………………………. 5

Absolute Maximum Ratings ……………………..……………..…………………………………………………. 6

Operating Supply Voltage Range …………..……………………………………………………………………. 6

Electrical Characteristics ………………….………………….………………….………………………………. 7

Electrical Characteristics (Reference values for design) ………………….………………….………………. 9

Technical Data …………………………………….………………….……………………………………………. 10

• I/O block circuit diagrams and pin function descriptions …………........……………………………………. 10

• Operation table (LPFs) …………................................…………….…………………………………………. 14

• P_D⎯ T_adiagram …………........………….………………….…………………………………………………. 15

Usage Notes ……….…..…………………….………………….…………………………………………………. 16

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AN13208A

3-ch. video driver IC supporting HD with charge pump

Overview

AN13208A is a 75 Ω video driver IC supporting HD (high-definition) which can operate by 3.25 V of supply voltage.

Negative voltages generated by built-in charge pump circuit enable DC direct output, and output capacitor which is needed

previously is not required. Also, it improves the output dynamic range which was difficult by a single supply.

Furthermore, it incorporates various filters for D pin outputs and control switches, which allows 75 Ω driving by 3 output systems

of Cy, Cb, Cr or Py, Pb, Pr.

Features

y Supply voltage 3.25 V, 75 Ω driver for 3-ch. video

y 3 output systems of Cy, Cb, Cr or Py, Pb, Pr

y Supports D4 (720P)

y 3 modes of filter selector switches

y Built-in stand-by mode

y Output capacitor is unnecessary by generating negative voltage from charge pump circuit.

y Wide output dynamic range

Applications

y Video output for portable equipments such as DSC and DVC

Package

y 20 pin fine pitch land grid array package (LGA type)

Type

y Bi-CMOS IC

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Application Circuit Example (Block Diagram)

3.25 V

Power

supply

Pr-out

Pr-in

Filter

SW1

Filter

SW2

GND_C

75 Ω

1 μF

VCC_C

Standby SW

(Pb, Pr用)

LPF 6 MHz/15 MHz

LPF through

BIAS

4.7 μF

Pb-in

1 μF

75 Ω

Pb-out

LPF 6 MHz/15 MHz

LPF through

BIAS

V_CC

VCC_Y

(Py用)

4.7 μF

Py-out

Py-in

1 μF

75 Ω

LPF 12 MHz/30 MHz

LPF through

BIAS

V_DD

Charge pump

4.7 μF

2.2 μF

4.7 μH

4.7 μF

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Pin Descriptions

Pin No.

Pin name

Type

Output

Ground

Output

Input

Description

CLKP

Clock output pin (+)

GND (for charge pump)

Clock output pin (–)

Negative voltage generation pin

SUB potential

GND_PUMP

CLKN

V_SS

SUB

GND_Y

Py-out

VCC_Y

Pb-out

VCC_C

Pr-out

Ground

Output

GND (for Py)

Output pin for Py

Power supply V_CC(for Py)

Output

Output pin for Pb

Power supply V_CC(for Pb/Pr)

Output

Ground

Input

Output pin for Pr

GND_C

Filter SW2

Filter SW1

Pr-in

GND (for Pb/Pr)

Filter selector switch2

Filter selector switch1

Input pin for Pr

Input

Standby SW

Pb-in

Input

ON/OFF selector switch

Input pin for Pb

Input

V_CC

Power supply V_CC

Py-in

Input

Input pin for Py

V_DD

Power supply V_DD(for charge pump)

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Absolute Maximum Ratings

A No.

Parameter

Symbol

V_CC

I_CC

Rating

4.1

Unit

Note

Supply voltage

Supply current

—

Power dissipation

P_D

137

°C

Operating ambient temperature

Storage temperature

T_opr

–20 to +75

–55 to +125

T_stg

°C

Note) *1: The range under absolute maximum ratings, power dissipation.

*2: Power dissipation shows the value of only package at T_a= 75°C.

When using this IC, refer to the • P_D– T_adiagram in the Technical Data and use under the condition not exceeding the allowable value.

*3: Expect for the storage temperature and operating ambient temperature, all ratings are for T_a= 25°C.

Operating Supply Voltage Range

Parameter

Supply voltage range

Symbol

Range

Unit

Note

V_CC

2.7 to 3.6

—

Note) The values under the condition not exceeding the above absolute maximum ratings and the power dissipation.

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Electrical Characteristics at V_CC= 3.25 V

Note) T_a= 25°C 2°C unless otherwise specified.

Limits

Typ

No.

Parameter

Symbol

Conditions

Unit Note

Min

Max

Circuit current

Circuit current at non-signal

(Wide mode)

Icc1

―

Circuit current in power saving mode

ICCST

₁₃= V₁₄= V₁₆= 0 V

μA

―

Mode control

Low state hold voltage range for

SWL1

SWH1

SWL2

SWH2

0.6

3.25

0.6

―

filter selector switch1

High state hold voltage range for

filter selector switch1

2.1

Low state hold voltage range for

filter selector switch2

High state hold voltage range for filter

selector switch2

2.1

3.25

Stand-by OFF hold voltage

Stand-by ON hold voltage

VthST

0.6

―

VthON

2.1

3.25

Driver characteristics: Wide mode

Input/output gain (Py, wide mode)

Py1

Pb1

f = 3.58 MHz

5.65

6.15

6.65

0.5

―

Pb output gain difference

(Pb-Py, wide mode)

– 0.5

Pr output gain difference

(Pr-Py, wide mode)

Pr1

f = 3.58 MHz

– 0.5

0.5

―

Driver characteristics: Narrow mode

12 Input/output gain (Py, narrow mode)

Py1

Pb1

f = 3.58 MHz

5.65

6.15

6.65

0.5

―

Pb output gain difference

– 0.5

(Pb-Py, narrow mode)

Pr output gain

Pr1

f = 3.58 MHz

– 0.5

0.5

―

(Pr-Py, narrow mode)

Py frequency characteristics

Pya frequency character 1

(Wide mode)

Pya-f1

Pya-f2

Pyb-f1

Pyb-f2

f = 30 MHz /3.58 MHz

f = 50 MHz /3.58 MHz

f = 15 MHz /3.58 MHz

f = 27 MHz /3.58 MHz

–3.5 – 0.3

1.5

– 4.5

―

Pya frequency character 2

(Wide mode)

—

–4

—

–13

– 1

Pyb frequency character 1

(Narrow mode)

Pyb frequency character 2

(Narrow mode)

–20

–8

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Electrical Characteristics at V_CC= 3.25 V (continued)

Note) T_a= 25°C 2°C unless otherwise specified.

Limits

Typ

No.

Parameter

Symbol

Conditions

Unit Note

Min

Max

Pb frequency characteristics

Pba frequency character 1

(Wide mode)

Pba-f1

Pba-f2

Pbb-f1

Pbb-f2

f = 15 MHz /3.58 MHz

f = 37 MHz /3.58 MHz

f = 8 MHz /3.58 MHz

f = 18 MHz /3.58 MHz

–4

—

–4

—

–8

―

Pba frequency character 2

(Wide mode)

–25

– 0.2

–16

Pbb frequency character 1

(Narrow mode)

Pbb frequency character 2

(Narrow mode)

–6

Pr frequency characteristics

Pra frequency character 1

(Wide mode)

Pra-f1

Pra-f2

Prb-f2

f = 15 MHz /3.58 MHz

f = 37 MHz /3.58 MHz

f = 8 MHz /3.58 MHz

f = 18 MHz /3.58 MHz

–4

—

–8

―

Pra frequency character 2

(Wide mode)

–25

Prb frequency character 2

(Narrow mode)

–4.0 – 0.2

–16

Prb frequency character 2

(Narrow mode)

—

–6

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Electrical Characteristics (Reference values for design) at V_CC= 3.25 V

Note) T_a= 25°C 2°C unless otherwise specified.

The characteristics listed below are reference values for design of the IC and are not guaranteed by inspection.

If a problem does occur related to these characteristics, Panasonic will respond in good faith to user concerns.

Limits

Typ

No.

Parameter

Symbol

Conditions

Unit Note

Min

Max

Py, Pb, Pr frequency characteristics

Pya frequency character 3

(Wide mode)

Pya-f3

Pyb-f3

Pba-f3

Pbb-f3

Pra-f3

Prb-f3

f = 74 MHz /3.58 MHz

f = 54 MHz /3.58 MHz

—

–40

–50

–40

–45

–40

–45

–30

―

Pyb frequency character 3

(Narrow mode)

Pba frequency character 3

(Wide mode)

Pbb frequency character 3

(Narrow mode)

Pra frequency character 3

(Wide mode)

Prb frequency character 3

(Narrow mode)

Py, Pb, Pr output characteristics

33 Py output 2nd distortion

34 Py output 3rd distortion

35 Pb output 2nd distortion

36 Pb output 3rd distortion

37 Pr output 2nd distortion

38 Pr output 3rd distortion

Py-Dis2

_IN= 1.0 V[p-p], f = 3.58 MHz

—

–45

–60

–45

–60

–45

–60

–40

―

Py-Dis3 V_IN= 1.0 V[p-p], f = 3.58 MHz

Pb-Dis2 V_IN= 1.0 V[p-p], f = 3.58 MHz

Pb-Dis3 V_IN= 1.0 V[p-p], f = 3.58 MHz

Pr-Dis2 V_IN= 1.0 V[p-p], f = 3.58 MHz

Pr-Dis3

SNR

V_IN= 1.0 V[p-p], f = 3.58 MHz

white50%, 100 kHz-4.2 MHz,

Trap = off

39 S/N

—

―

40 DG

_IN= 1.0 V[p-p], 10 STEP

—

DEG

―

41 DP

42 Cross talk

43 Output D-range

44 Input D-range

5 MHz

—

4.0

2.0

–50

—

DROUT f = 1 MHz

DRIN

f = 1 MHz

—

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Technical Data

• I/O block circuit diagrams and pin function descriptions

Note) The characteristics listed below are reference values based on the IC design and are not guaranteed.

Pin Waveform and

Internal circuit

Impedance

Description

No.

voltage

GND

PUMP

VCC

PUMP

VDD

GND

Generated negative voltage output pin 1

―

GND

GND for charge pump

Generated negative voltage output pin 2

Negative voltage generation pin

SUB potential

―

GND

VSS

V_SS

―

GND

GND (for Py)

―

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AN13208A

Technical Data (continued)

• I/O block circuit diagrams and pin function descriptions (continued)

Note) The characteristics listed below are reference values based on the IC design and are not guaranteed.

Pin Waveform and

Internal circuit

Impedance

Description

No.

voltage

VCC_Y

During operation

10 Ω or less

Py-out

VSS

SUB

V_CC

V_CC(for Py)

―

VCC_C

During operation

10 Ω or less

Pb-out

VSS

SUB

V_CC

V_CC(for Pb/Pr)

―

VCC_C

During operation

10 Ω or less

Pr-out

VSS

SUB

GND

GND (for Pb/Pr)

―

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Technical Data (continued)

• I/O block circuit diagrams and pin function descriptions (continued)

Note) The characteristics listed below are reference values based on the IC design and are not guaranteed.

Pin Waveform and

Internal circuit

Impedance

Description

No.

voltage

VCC

V_CC

200 kΩ

Filter control switch 2

GND

VCC

V_CC

200 kΩ

130 kΩ

200 kΩ

130 kΩ

―

Filter control switch 1

GND

Pr-in

VSS

SUB

VCC_PUMP

V_CC

Stand-by control switch 1

GND

Pb-in

V_CC

―

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AN13208A

Technical Data (continued)

• I/O block circuit diagrams and pin function descriptions (continued)

Note) The characteristics listed below are reference values based on the IC design and are not guaranteed.

Pin Waveform and

Internal circuit

Impedance

Description

No.

voltage

130 kΩ

Py-in

VSS

SUB

V_CC

V_DD(for charge pump)

―

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AN13208A

Technical Data (continued)

y Operation table (LPFs)

Pin setting

Pin 14

Operating conditions

Pin 16

Pin 13

Standby SW

Filter SW1

Filter SW2

Stand-by (normal)

(Stand-by)

Circuit operation (LPF1: Wide)

Circuit operation (LPF2: Narrow)

Circuit operation (Through: Filter through mode)

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Technical Data (continued)

• P_D⎯ T_adiagram

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AN13208A

Usage Notes

1. Carry out the thermal design with sufficient margin such that the power dissipation will not be exceeded, based on the conditions

of power supply, load and ambient temperature. The absolute maximum ratings are values which should not be exceeded in any

use or test conditions.

2. Pay attention in the pattern layout in order to prevent damage due to short circuit between pins. In addition, refer to the Pin

Description for the pin configuration.

3. Be sure not to mount the LSI in the reverse direction onto the PCB. It might be damaged when the electricity is turned on.

4. Perform a visual inspection on the PCB before turning on the power supply, otherwise damage might happen due to problems such

as a solder-bridge between the pins of the semiconductor device. Also, perform a full technical verification on the assembly

quality, because the same damage possibly can happen due to conductive substances, such as solder ball, that adhere to the LSI

during transportation.

5. Take notice in the use of this product that it might break or occasionally smoke when an abnormal state occurs such as power fault,

i.e., output pins, Pin4 (CP negative voltage output), or Pin5 (SUB potential) short to the power supplies. And, safety measures

such as an installation of fuses are recommended because the extent of the above-mentioned damage and smoke emission will

depend on the current capability of the power supply.

6. When using the LSI for model deployment or new products, perform fully safety verification including the long-term reliability

for each product.

7. This IC has a built-in charge pump which generates PCB voltage (negative voltage) inside the IC. As the fin of this IC is

connected to the PCB, it might be damaged or emit smoke when a voltage including GND is applied.

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Request for your special attention and precautions in using the technical information and

semiconductors described in this book

(1) If any of the products or technical information described in this book is to be exported or provided to non-residents, the laws and

regulations of the exporting country, especially, those with regard to security export control, must be observed.

(2) The technical information described in this book is intended only to show the main characteristics and application circuit examples

of the products. No license is granted in and to any intellectual property right or other right owned by Panasonic Corporation or any

other company. Therefore, no responsibility is assumed by our company as to the infringement upon any such right owned by any

other company which may arise as a result of the use of technical information described in this book.

(3) The products described in this book are intended to be used for standard applications or general electronic equipment (such as office

equipment, communications equipment, measuring instruments and household appliances).

Consult our sales staff in advance for information on the following applications:

– Special applications (such as for airplanes, aerospace, automobiles, traffic control equipment, combustion equipment, life support

systems and safety devices) in which exceptional quality and reliability are required, or if the failure or malfunction of the prod-

ucts may directly jeopardize life or harm the human body.

– Any applications other than the standard applications intended.

(4) The products and product specifications described in this book are subject to change without notice for modification and/or im-

provement. At the final stage of your design, purchasing, or use of the products, therefore, ask for the most up-to-date Product

Standards in advance to make sure that the latest specifications satisfy your requirements.

(5) When designing your equipment, comply with the range of absolute maximum rating and the guaranteed operating conditions

(operating power supply voltage and operating environment etc.). Especially, please be careful not to exceed the range of absolute

maximum rating on the transient state, such as power-on, power-off and mode-switching. Otherwise, we will not be liable for any

defect which may arise later in your equipment.

Even when the products are used within the guaranteed values, take into the consideration of incidence of break down and failure

mode, possible to occur to semiconductor products. Measures on the systems such as redundant design, arresting the spread of fire

or preventing glitch are recommended in order to prevent physical injury, fire, social damages, for example, by using the products.

(6) Comply with the instructions for use in order to prevent breakdown and characteristics change due to external factors (ESD, EOS,

thermal stress and mechanical stress) at the time of handling, mounting or at customer's process. When using products for which

damp-proof packing is required, satisfy the conditions, such as shelf life and the elapsed time since first opening the packages.

(7) This book may be not reprinted or reproduced whether wholly or partially, without the prior written permission of our company.

20080805

AN13208A [PANASONIC]

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