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Analog Devices Inc. AD9223ARSZ
- Part Number:
- AD9223ARSZ
- Manufacturer:
- Analog Devices Inc.
- Ventron No:
- 3120729-AD9223ARSZ
- Description:
- IC ADC 12BIT 3.0MSPS 28-SSOP
- ECAD Model:
-
- Datasheet:
- AD9223ARSZ
Analog Devices Inc. AD9223ARSZ technical specifications, attributes, parameters and parts with similar specifications to Analog Devices Inc. AD9223ARSZ.
- Factory Lead Time10 Weeks
- Lifecycle StatusPRODUCTION (Last Updated: 2 weeks ago)
- Contact PlatingTin
- Mounting TypeSurface Mount
- Package / Case28-SSOP (0.209, 5.30mm Width)
- Surface MountYES
- Number of Pins28
- Operating Temperature-40°C~85°C
- PackagingTube
- JESD-609 Codee3
- Pbfree Codeno
- Part StatusActive
- Moisture Sensitivity Level (MSL)1 (Unlimited)
- Number of Terminations28
- ECCN CodeEAR99
- SubcategoryAnalog to Digital Converters
- Max Power Dissipation130mW
- TechnologyCMOS
- Terminal PositionDUAL
- Terminal FormGULL WING
- Peak Reflow Temperature (Cel)260
- Number of Functions1
- Supply Voltage5V
- Terminal Pitch0.65mm
- Reflow Temperature-Max (s)30
- Base Part NumberAD9223
- Pin Count28
- Operating Supply Voltage5V
- PolarityUnipolar
- Power Supplies5V
- ConfigurationS/H-ADC
- Number of Channels1
- Max Supply Voltage5.25V
- Min Supply Voltage4.75V
- Power Dissipation130mW
- Number of Bits12
- Input TypeDifferential, Single Ended
- Min Input Voltage1V
- ArchitecturePipelined
- Max Input Voltage2.5V
- Converter TypeADC, FLASH METHOD
- Supply TypeAnalog, Digital
- Reference TypeExternal, Internal
- Data InterfaceParallel
- Resolution1.5 B
- Sampling Rate3 Msps
- Voltage - Supply, Analog5V
- Voltage - Supply, Digital2.7V~5.25V
- Number of Analog In Channels1
- Sampling Rate (Per Second)3M
- Output Bit CodeBINARY
- Power Consumption100mW
- Linearity Error-Max (EL)0.0305%
- Integral Nonlinearity (INL)1.25 LSB
- Sample and Hold / Track and HoldSAMPLE
- Input Capacitance16pF
- Ratio - S/H:ADC1:1
- Signal to Noise Ratio (SNR)70 dB
- Differential Nonlinearity0.75 LSB
- Height1.75mm
- Length10.2mm
- Width5.3mm
- Radiation HardeningNo
- REACH SVHCNo SVHC
- RoHS StatusROHS3 Compliant
- Lead FreeContains Lead
AD9223ARSZ Overview
This product features a Surface Mount design, making it suitable for a wide range of applications. It has an operating temperature range of -40°C to 85°C, ensuring reliable performance in various environments. With 28 terminations, this product offers multiple connection options for ease of use. The minimum supply voltage of 4.75V and power dissipation of 130mW make it an energy-efficient choice. The output bit code is BINARY, allowing for precise data conversion. This product also boasts a low linearity error of 0.0305% and a high integral nonlinearity of 1.25 LSB, ensuring accurate and reliable data transmission. The ratio of S/H to ADC is 1:1, and the signal-to-noise ratio is 70 dB, providing high-quality signal conversion.
AD9223ARSZ Features
1 Functions
28 basic kinds of terminations
28 pin count
Minimal supply voltage of 4.75V
5V power supplies
AD9223ARSZ Applications
There are a lot of Analog Devices Inc. AD9223ARSZ ADC applications.
Scientific instruments
Broadband data applications
In-building wireless telephony
Digital Storage Oscilloscope
Wireless and wired broadband communications
Digital signal processing
Wireless local loop
Rotary encoder
Instrumentation and test equipment
Communications
This product features a Surface Mount design, making it suitable for a wide range of applications. It has an operating temperature range of -40°C to 85°C, ensuring reliable performance in various environments. With 28 terminations, this product offers multiple connection options for ease of use. The minimum supply voltage of 4.75V and power dissipation of 130mW make it an energy-efficient choice. The output bit code is BINARY, allowing for precise data conversion. This product also boasts a low linearity error of 0.0305% and a high integral nonlinearity of 1.25 LSB, ensuring accurate and reliable data transmission. The ratio of S/H to ADC is 1:1, and the signal-to-noise ratio is 70 dB, providing high-quality signal conversion.
AD9223ARSZ Features
1 Functions
28 basic kinds of terminations
28 pin count
Minimal supply voltage of 4.75V
5V power supplies
AD9223ARSZ Applications
There are a lot of Analog Devices Inc. AD9223ARSZ ADC applications.
Scientific instruments
Broadband data applications
In-building wireless telephony
Digital Storage Oscilloscope
Wireless and wired broadband communications
Digital signal processing
Wireless local loop
Rotary encoder
Instrumentation and test equipment
Communications
AD9223ARSZ More Descriptions
Single Channel Single ADC Pipelined 3Msps 12-bit Parallel 28-Pin SSOP Tube
Analog to Digital Converters - ADC 12-Bit 3.0 MSPS
In a Pack of 5, Texas Instruments SN65HVD3088ED, Line Transceiver, RS-485, 5 V, 8-Pin SOIC
12-Bit, 3.0 MSPS A/D Converter
Adc, 12Bit, 3Msps, Ssop-28; Resolution (Bits):12Bit; Sampling Rate:3Msps; Input Channel Type:Differential, Single Ended; Data Interface:Parallel; Supply Voltage Type:Single; Supply Voltage Min:2.7V; Supply Voltage Max:5.25V Rohs Compliant: Yes |Analog Devices AD9223ARSZ
The AD9221, AD9223, and AD9220 are a generation of high performance, single supply 12-bit analog-to-digital converters. Each device exhibits true 12-bit linearity and temperature drift performance1 as well as 11.5-bit or better ac performance.2 TheAD9221/AD9223/AD9220 share the same interface options, package, and pin out. Thus, the product family provides an upward or downward component selection path based on performance, sample rate and power. The devices differ with respect to their specified sampling rate, and power consumption, which is reflected in their dynamic performance over frequency. The AD9221/AD9223/AD9220 combine a low cost, high speed CMOS process and a novel architecture to achieve the resolution and speed of existing hybrid and monolithic implementations at a fraction of the power consumption and cost. Each device is a complete, monolithic ADC with an on-chip, high performance,low noise sample-and-hold amplifier and programmable voltage reference. An external reference can also be chosen to suit the dc accuracy and temperature drift requirements of the application. The devices use a multistage differential pipelined architecture with digital output error correction logic to provide 12-bit accuracy at the specified data rates and to guarantee no missing codes over the full operating temperature range. The input of the AD9221/AD9223/AD9220 is highly flexible,allowing for easy interfacing to imaging, communications, medical, and data-acquisition systems. A truly differential input structure allows for both single-ended and differential input interfaces of varying input spans. The sample-and-hold amplifier (SHA) is equally suited for both multiplexed systems that switch full-scale voltage levels in successive channels as well as sampling single-channel inputs at frequencies up to and beyond the Nyquist rate. Also, the AD9221/AD9223/AD9220 is well suited for communication systems employing Direct-IF down conversion since the SHA in the differential input mode can achieve excellent dynamic performance far beyond its specified Nyquist frequency.2 A single clock input is used to control all internal conversion cycles. The digital output data is presented in straight binary output format. An out-of-range (OTR) signal indicates an overflow condition that can be used with the most significant bit to determine low or high overflow.
Analog to Digital Converters - ADC 12-Bit 3.0 MSPS
In a Pack of 5, Texas Instruments SN65HVD3088ED, Line Transceiver, RS-485, 5 V, 8-Pin SOIC
12-Bit, 3.0 MSPS A/D Converter
Adc, 12Bit, 3Msps, Ssop-28; Resolution (Bits):12Bit; Sampling Rate:3Msps; Input Channel Type:Differential, Single Ended; Data Interface:Parallel; Supply Voltage Type:Single; Supply Voltage Min:2.7V; Supply Voltage Max:5.25V Rohs Compliant: Yes |Analog Devices AD9223ARSZ
The AD9221, AD9223, and AD9220 are a generation of high performance, single supply 12-bit analog-to-digital converters. Each device exhibits true 12-bit linearity and temperature drift performance1 as well as 11.5-bit or better ac performance.2 TheAD9221/AD9223/AD9220 share the same interface options, package, and pin out. Thus, the product family provides an upward or downward component selection path based on performance, sample rate and power. The devices differ with respect to their specified sampling rate, and power consumption, which is reflected in their dynamic performance over frequency. The AD9221/AD9223/AD9220 combine a low cost, high speed CMOS process and a novel architecture to achieve the resolution and speed of existing hybrid and monolithic implementations at a fraction of the power consumption and cost. Each device is a complete, monolithic ADC with an on-chip, high performance,low noise sample-and-hold amplifier and programmable voltage reference. An external reference can also be chosen to suit the dc accuracy and temperature drift requirements of the application. The devices use a multistage differential pipelined architecture with digital output error correction logic to provide 12-bit accuracy at the specified data rates and to guarantee no missing codes over the full operating temperature range. The input of the AD9221/AD9223/AD9220 is highly flexible,allowing for easy interfacing to imaging, communications, medical, and data-acquisition systems. A truly differential input structure allows for both single-ended and differential input interfaces of varying input spans. The sample-and-hold amplifier (SHA) is equally suited for both multiplexed systems that switch full-scale voltage levels in successive channels as well as sampling single-channel inputs at frequencies up to and beyond the Nyquist rate. Also, the AD9221/AD9223/AD9220 is well suited for communication systems employing Direct-IF down conversion since the SHA in the differential input mode can achieve excellent dynamic performance far beyond its specified Nyquist frequency.2 A single clock input is used to control all internal conversion cycles. The digital output data is presented in straight binary output format. An out-of-range (OTR) signal indicates an overflow condition that can be used with the most significant bit to determine low or high overflow.
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