Analog Devices Inc. AD724JR
- Part Number:
- AD724JR
- Manufacturer:
- Analog Devices Inc.
- Ventron No:
- 3177189-AD724JR
- Description:
- IC ENCODER RGB TO NTSC 16-SOIC
- Datasheet:
- AD724JR
Analog Devices Inc. AD724JR technical specifications, attributes, parameters and parts with similar specifications to Analog Devices Inc. AD724JR.
- Mounting TypeSurface Mount
- Package / Case16-SOIC (0.295, 7.50mm Width)
- Surface MountYES
- PackagingTube
- JESD-609 Codee0
- Pbfree Codeno
- Part StatusObsolete
- Moisture Sensitivity Level (MSL)1 (Unlimited)
- Number of Terminations16
- Terminal FinishTIN LEAD
- ApplicationsRGB to NTSC/PAL
- TechnologyCMOS
- Terminal PositionDUAL
- Terminal FormGULL WING
- Peak Reflow Temperature (Cel)240
- Number of Functions1
- Terminal Pitch1.27mm
- Reach Compliance Codeunknown
- Reflow Temperature-Max (s)30
- Pin Count16
- JESD-30 CodeR-PDSO-G16
- Qualification StatusCOMMERCIAL
- Operating Temperature (Max)70°C
- Supply Voltage-Max (Vsup)5.25V
- Temperature GradeCOMMERCIAL
- Supply Voltage-Min (Vsup)4.75V
- Voltage - Supply, Digital4.75V~5.25V
- Video StandardPAL; NTSC
- Height Seated (Max)2.65mm
- Length10.3mm
- Width7.5mm
- RoHS StatusNon-RoHS Compliant
AD724JR Overview
16-SOIC (0.295, 7.50mm Width) package contains the encoder.It is recommended to pack the encoder in Tube case.Surface Mount-axis is mounted on this motor encoder.Video Encoder is the type of the object.In this case, the encoder is connected in RGB to NTSC/PAL.The optical encoder uses the 4.75V~5.25V digital power for switching power supplies.In the optical encoder there are 16 terminations that are available.There are 16 pins on the rotary encoders in total. The required minimum supply voltage should be larger than 4.75V.There is a maximum supply voltage (Vsup) of a encoder motor where 5.25V is reached.It is important to keep in mind that this encoder should be used at temperatures up to 70°C.
AD724JR Features
In 16-SOIC (0.295, 7.50mm Width) package
Mounting Type: Surface Mount
AD724JR Applications
There are a lot of Rochester Electronics, LLC AD724JR Encoders, Decoders, Converters applications.
Cell phones
Drive recorder
Remote Device Control
Internet appliances
Telephony
Low power consumption
Optical Networking
Security
Portable navigation
Video recorder
16-SOIC (0.295, 7.50mm Width) package contains the encoder.It is recommended to pack the encoder in Tube case.Surface Mount-axis is mounted on this motor encoder.Video Encoder is the type of the object.In this case, the encoder is connected in RGB to NTSC/PAL.The optical encoder uses the 4.75V~5.25V digital power for switching power supplies.In the optical encoder there are 16 terminations that are available.There are 16 pins on the rotary encoders in total. The required minimum supply voltage should be larger than 4.75V.There is a maximum supply voltage (Vsup) of a encoder motor where 5.25V is reached.It is important to keep in mind that this encoder should be used at temperatures up to 70°C.
AD724JR Features
In 16-SOIC (0.295, 7.50mm Width) package
Mounting Type: Surface Mount
AD724JR Applications
There are a lot of Rochester Electronics, LLC AD724JR Encoders, Decoders, Converters applications.
Cell phones
Drive recorder
Remote Device Control
Internet appliances
Telephony
Low power consumption
Optical Networking
Security
Portable navigation
Video recorder
AD724JR More Descriptions
16-SOIC (0.295 7.50mm Width) RGB to NTSC/PAL Video Encoder R-PDSO-G16 interface encoder 10.3mm 70C 4.75V~5.25V
RGB to NTSC and PAL Encoder 16-Pin SOIC W Tube
IC TXRX NON-INVERT 5.25V 20SOIC
IC ENCODER RGB TO NTSC 16-SOIC
Integrated Circuit AD724/SO/AD724JR ANALOG DEVICE SO16
SOIC LP/SS RGB-NTSC/PAL ENCODER
French Electronic Distributor since 1988
Color Signal Encoder, CMOS, PDSO16
Video ICs RGB-NTSC/PAL ENCODER
The AD724 is a low cost RGB to NTSC/PAL Encoder that converts red, green and blue color component signals into their corresponding luminance (baseband amplitude) and chrominance (subcarrier amplitude and phase) signals in accordance with either NTSC or PAL standards. These two outputs are also combined to provide composite video output. All three outputs can simultaneously drive 75 (ohm), reverse-terminated cables. All logical inputs are CMOS compatible. The chip operates from a single 5 V supply. No external delay lines or filters are required. The AD724 may be powered down when not in use. The AD724 accepts either FSC or 4FSC clock. When a clock is not available, a low cost parallel-resonant crystal (3.58 MHz (NTSC) or 4.43 MHz (PAL)) and the AD724’s on-chip oscilla-tor generate the necessary subcarrier clock. The AD724 also accepts the subcarrier clock from an external video source. The interface to graphics controllers is simple: an on-chip logic “XNOR” accepts the available vertical (VSYNC) and horizontal sync (HSYNC) signals and creates the composite sync (CSYNC) signal on-chip. If available, the AD724 will also accept a standard CSYNC signal by connecting VSYNC to 5 V and applying CSYNC to the HSYNC pin. The AD724 contains decoding logic to identify valid horizontal sync pulses for correct burst insertion. Delays in the U and V chroma filters are matched by an on-chip sampled-data delay line in the Y signal path. To prevent aliasing, a prefilter at 5 MHz is included ahead of the delay line and a post-filter at 5 MHz is added after the delay line to suppress harmonics in the output. These low-pass filters are optimized for minimum pulse overshoot. The overall luma delay, relative to chroma, has been designed to be time aligned for direct input to a television’s baseband. The AD724 comes in a space-saving SOIC and is specified for the 0°C to 70°C commercial temperature range. An evaluation board is available for this product and may be ordered using the following product number: AD724-EB.
RGB to NTSC and PAL Encoder 16-Pin SOIC W Tube
IC TXRX NON-INVERT 5.25V 20SOIC
IC ENCODER RGB TO NTSC 16-SOIC
Integrated Circuit AD724/SO/AD724JR ANALOG DEVICE SO16
SOIC LP/SS RGB-NTSC/PAL ENCODER
French Electronic Distributor since 1988
Color Signal Encoder, CMOS, PDSO16
Video ICs RGB-NTSC/PAL ENCODER
The AD724 is a low cost RGB to NTSC/PAL Encoder that converts red, green and blue color component signals into their corresponding luminance (baseband amplitude) and chrominance (subcarrier amplitude and phase) signals in accordance with either NTSC or PAL standards. These two outputs are also combined to provide composite video output. All three outputs can simultaneously drive 75 (ohm), reverse-terminated cables. All logical inputs are CMOS compatible. The chip operates from a single 5 V supply. No external delay lines or filters are required. The AD724 may be powered down when not in use. The AD724 accepts either FSC or 4FSC clock. When a clock is not available, a low cost parallel-resonant crystal (3.58 MHz (NTSC) or 4.43 MHz (PAL)) and the AD724’s on-chip oscilla-tor generate the necessary subcarrier clock. The AD724 also accepts the subcarrier clock from an external video source. The interface to graphics controllers is simple: an on-chip logic “XNOR” accepts the available vertical (VSYNC) and horizontal sync (HSYNC) signals and creates the composite sync (CSYNC) signal on-chip. If available, the AD724 will also accept a standard CSYNC signal by connecting VSYNC to 5 V and applying CSYNC to the HSYNC pin. The AD724 contains decoding logic to identify valid horizontal sync pulses for correct burst insertion. Delays in the U and V chroma filters are matched by an on-chip sampled-data delay line in the Y signal path. To prevent aliasing, a prefilter at 5 MHz is included ahead of the delay line and a post-filter at 5 MHz is added after the delay line to suppress harmonics in the output. These low-pass filters are optimized for minimum pulse overshoot. The overall luma delay, relative to chroma, has been designed to be time aligned for direct input to a television’s baseband. The AD724 comes in a space-saving SOIC and is specified for the 0°C to 70°C commercial temperature range. An evaluation board is available for this product and may be ordered using the following product number: AD724-EB.
Popular Search Part Number
Related Keywords
Search Tags
Latest News
-
20 December 2023
What is the STM32F103C8T6 Microcontroller and How Does It Work?
Ⅰ. STM32F103C8T6 overviewⅡ. What are the features of STM32F103C8T6?Ⅲ. Programming of STM32F103C8T6Ⅳ. STM32F103C8T6 priceⅤ. What is the difference between STM32F103C8T6 and CH32F103C8T6?Ⅵ. Decoupling circuit of STM32F103C8T6Ⅶ. Several working... -
20 December 2023
1N4007 Diode Characteristics and Application Guide
Ⅰ. Introduction of 1N4007Ⅱ. Naming rules of 1N4007 diodeⅢ. Technical parameters of 1N4007 diodeⅣ. Can we use 1N4004 instead of 1N4007?Ⅴ. 1N4007 diode principle of operationⅥ. Electrical characteristic... -
21 December 2023
Comprehensive Exploration of BC547 Transistor: Advantages, Uses, Specifications and Working Status
Ⅰ. BC547 descriptionⅡ. What are the advantages of BC547 transistor?Ⅲ. BC547 application circuitⅣ. Specifications of BC547Ⅴ. Working status of BC547 transistorⅥ. Absolute maximum ratings of BC547Ⅶ. What are... -
21 December 2023
Exploring the PC817 Optocoupler: Working Principle, Package, Manufacturer and More
Ⅰ. What is PC817 optocoupler?Ⅱ. How PC817 optocoupler works?Ⅲ. Where can we use PC817 optocoupler?Ⅳ. PC817 optocoupler packageⅤ. How to measure the quality of PC817?Ⅵ. Manufacturer of PC817...
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.