Payment Method
AD9913BCPZ +BOM
Specialized ADC/DAC for precision signal processing
CP-32-7-
Manufacturer:
-
Mfr.Part #:
AD9913BCPZ
-
Datasheet:
-
Series:
AD9913
-
Mounting Style:
SMD/SMT
-
Product:
Direct Digital Syntheses
-
Type:
Synthesizer
Send all BOMs to [email protected], or fill out the form below for a quote on AD9913BCPZ. Guaranteed response within 12hr.
Availability: 7855 PCS
Please fill in the short form below and we will provide you the quotation immediately.
Description
The AD9913BCPZ is a high-speed direct digital synthesizer (DDS) chip from Analog Devices, designed for frequency generation applications. It features a 1 GSPS sampling rate, 14-bit DAC resolution, and four frequency output channels. The device uses DDS technology with an integrated phase-locked loop (PLL) and serial peripheral interface (SPI) control. With a power consumption of 380 mW, it is suitable for use in various applications such as radar systems, medical imaging equipment, industrial instrumentation, and communication systems.
Features
According to the product information, the features of the AD9913BCPZ are:
- 1 GSPS sampling rate
- 14-bit DAC resolution
- 4 frequency output channels
- Direct digital synthesis (DDS) technology
- Integrated phase-locked loop (PLL)
- Serial peripheral interface (SPI) control
- Power consumption of 380 mW
- 32-bit frequency tuning word
- On-chip RAM for waveform storage
These features make it suitable for high-performance applications such as radar systems, medical imaging equipment, and communication systems.
Package
The package type of AD9913BCPZ is LFCSP-32, which stands for Lead-Free Ceramic Pin Grid Array (LFCSP) with a 32-pin count.
Manufacturer
The manufacturer of the AD9913BCPZ is Analog Devices, a leading global semiconductor company that specializes in designing and manufacturing high-performance analog, mixed-signal, and digital integrated circuits (ICs).
Applications
According to the product information, the application areas of AD9913BCPZ include:
- Radar systems
- Medical imaging equipment
- Industrial instrumentation
- Communication systems
- Scientific research
- Test and measurement equipment
- Aerospace and defense technologies
Equivalent
Based on the product information, the equivalent products of AD9913BCPZ are likely to be other high-speed direct digital synthesizers (DDS) with similar features such as:
- Texas Instruments' ADRF6700/1
- National Semiconductor's LMX2592
- Maxim Integrated's MAX2875
These products share similar characteristics, including high sampling rates, high-resolution DACs, and multiple frequency output channels. However, please note that the exact equivalent products may vary depending on specific application requirements and performance specifications.
Specifications
Product Category | Data Acquisition ADCs/DACs - Specialized | Series | AD9913 |
Mounting Style | SMD/SMT | Product | Direct Digital Syntheses |
Type | Synthesizer | Resolution | 10 bit |
Number of Channels | 1 Channel | Supply Voltage - Min | 1.71 V |
Supply Voltage - Max | 1.89 V | Minimum Operating Temperature | - 40 C |
Maximum Operating Temperature | + 85 C | Development Kit | AD9913/PCBZ |
Height | 0.83 mm | Interface Type | Serial |
Length | 5 mm | Moisture Sensitive | Yes |
Number of Converters | 1 Converter | Number of DAC Channels | 1 DAC Channel |
Product Type | Data Acquisition ADCs/DACs - Specialized | Factory Pack Quantity | 490 |
Subcategory | Data Converter ICs | Width | 5 mm |
Unit Weight | 0.612356 oz | Package/Case | CP-32-7 |
Service Policies and Others
After-Sales & Settlement Related
For alternative payment channels, please reach out to us at:
[email protected]Shipping Method
AVAQ determines and packages all devices based on electrostatic discharge (ESD) and moisture sensitivity level (MSL) protection requirements.
365-Day Product
Quality Guarantee
We promise to provide 365 days quality assurance service for all our products.
In Stock: 7,855
Minimum Order: 1
Qty. | Unit Price | Ext. Price |
---|---|---|
1+ | - | - |
The prices below are for reference only.
Goods arrived in good condition and as described