Maxim Integrated MAX533BCPE
- Part Number:
- MAX533BCPE
- Manufacturer:
- Maxim Integrated
- Ventron No:
- 3023432-MAX533BCPE
- Description:
- IC DAC QUAD 8BIT 2.7V LP 16-DIP
- ECAD Model:
-
- Datasheet:
- MAX533BCPE
Maxim Integrated MAX533BCPE technical specifications, attributes, parameters and parts with similar specifications to Maxim Integrated MAX533BCPE .
- Factory Lead Time6 Weeks
- MountThrough Hole
- Package / CaseDIP
- Number of Pins16
- PackagingTube
- Published1996
- JESD-609 Codee3
- Pbfree Codeyes
- Part StatusObsolete
- Moisture Sensitivity Level (MSL)1 (Unlimited)
- Number of Terminations16
- ECCN CodeEAR99
- Terminal FinishMatte Tin (Sn)
- Max Operating Temperature70°C
- Min Operating Temperature0°C
- SubcategoryOther Converters
- TechnologyCMOS
- Terminal PositionDUAL
- Peak Reflow Temperature (Cel)260
- Number of Functions4
- Supply Voltage3V
- Pin Count16
- Output TypeVoltage
- Power Supplies3/3.3V
- Temperature GradeCOMMERCIAL
- InterfaceSPI, Serial
- Max Supply Voltage3.6V
- Min Supply Voltage2.7V
- Number of Bits8
- Supply Current-Max1.3mA
- Converter TypeD/A CONVERTER
- Supply TypeSingle
- Resolution1 B
- Settling Time6 μs
- Integral Nonlinearity (INL)2 LSB
- Input Bit CodeBINARY
- Analog Output Voltage-Max2.5V
- Number of DAC Channels4
- Length19.175mm
- Width7.62mm
- Radiation HardeningNo
- RoHS StatusROHS3 Compliant
- Lead FreeLead Free
MAX533BCPE Overview
The package or case of this particular technology is DIP, which stands for Dual In-line Package. It was published in the year 1996 and utilizes CMOS technology. The terminal position is DUAL, meaning that there are two rows of pins on either side of the package. This technology is designed for commercial use, as indicated by its temperature grade of COMMERCIAL. The maximum supply voltage for this technology is 3.6V. It has a low integral nonlinearity (INL) of 2 LSB, making it a highly accurate device. It also boasts four DAC channels, allowing for multiple inputs and outputs. The length of this technology is 19.175mm. It is not radiation hardened, meaning it is not specifically designed to withstand high levels of radiation.
MAX533BCPE Features
DIP package
16 pin count
16 pins
MAX533BCPE Applications
There are a lot of Maxim Integrated MAX533BCPE Digital to Analog Converters (DAC)?applications.
General Purpose Trimming Adjustments
Audio Amplifier
Function Generaion
Basestations
Direct Digital Waveform Generation
Automotive
Wireless infrastructure:
Digital Offset & Gain Adjustment
Wideband communications:
Digitally controlled calibration
The package or case of this particular technology is DIP, which stands for Dual In-line Package. It was published in the year 1996 and utilizes CMOS technology. The terminal position is DUAL, meaning that there are two rows of pins on either side of the package. This technology is designed for commercial use, as indicated by its temperature grade of COMMERCIAL. The maximum supply voltage for this technology is 3.6V. It has a low integral nonlinearity (INL) of 2 LSB, making it a highly accurate device. It also boasts four DAC channels, allowing for multiple inputs and outputs. The length of this technology is 19.175mm. It is not radiation hardened, meaning it is not specifically designed to withstand high levels of radiation.
MAX533BCPE Features
DIP package
16 pin count
16 pins
MAX533BCPE Applications
There are a lot of Maxim Integrated MAX533BCPE Digital to Analog Converters (DAC)?applications.
General Purpose Trimming Adjustments
Audio Amplifier
Function Generaion
Basestations
Direct Digital Waveform Generation
Automotive
Wireless infrastructure:
Digital Offset & Gain Adjustment
Wideband communications:
Digitally controlled calibration
MAX533BCPE More Descriptions
DAC 4-CH Resistor-String 8-bit 16-Pin PDIP N
2.7V, Low-Power, 8-Bit Quad DAC with Rail-to-Rail Output BuffersCiiva Crawler
Digital to Analog Converters - DAC 8-Bit 4Ch Precision DAC
2.7V, Low-Power, 8-Bit Quad DAC with Rail-to-Rail Output BuffersCiiva Crawler
Digital to Analog Converters - DAC 8-Bit 4Ch Precision DAC
Popular Search Part Number
Related Keywords
Search Tags
Latest News
-
20 September 2023
The Pinout, Advantages, and Electrical Characteristics of AO4466
Ⅰ. What is AO4466?Ⅱ. Symbol, Pinout and Footprint of AO4466Ⅲ. Technical parametersⅣ. What are the advantages of AO4466?Ⅴ. Application fields of AO4466Ⅵ. Typical electrical characteristicsⅦ. How to detect... -
21 September 2023
8 bit AVR Microcontroller ATMEGA32U4-AU
Ⅰ. Overview of ATMEGA32U4-AUⅡ. Symbol and Footprint of ATMEGA32U4-AUⅢ. Technical parametersⅣ. Features of ATMEGA32U4-AUⅤ. Pin descriptionⅥ. What types of products is ATMEGA32U4-AU suitable for?Ⅰ. Overview of ATMEGA32U4-AUATMEGA32U4-AU is... -
21 September 2023
Difference Between 2N2222 and BC547 Transistor
Ⅰ. What is 2N2222?Ⅱ. What is BC547?Ⅲ. 2N2222 vs BC547 symbolⅣ. 2N2222 vs BC547 technical parametersⅤ. 2N2222 vs BC547 pin comparisonⅥ. 2N2222 vs BC547 featuresⅦ. 2N2222 vs BC547... -
22 September 2023
Power Transistor IC LM317LZ: Symbol, Features and Package
Ⅰ. Overview of LM317LZⅡ. Symbol and Footprint of LM317LZⅢ. Technical parametersⅣ. Features of LM317LZⅤ. Pins and package of LM317LZⅥ. Advantages and disadvantages of LM317LZⅦ. How to optimize the...
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.