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AT24C02C-SSHM-B by:

Overview of: AT24C02C-SSHM-B by Microchip Technology Inc

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Price & Stock for: AT24C02C-SSHM-B

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View this part on Avnet Americas
0 1 Tube
  • 1 $0.2465
  • 100 $0.2380
View this part on Newark
0 1 Bulk
  • 1 $0.2600
View this part on Microchip Technology Inc
0 1
  • 1 $0.2300
  • 100 $0.2200
  • 1,000 $0.1890
  • 5,000 $0.1800
View this part on Onlinecomponents.com
0 100
  • 100 $0.3940
  • 200 $0.3900
  • 400 $0.3860
  • 800 $0.2220
View this part on NAC
0 1 Tube
  • 1 $0.4600
  • 100 $0.4400
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View this part on element14 Asia-Pacific
0 1 Each
  • 1 $0.3624
View this part on Farnell
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  • 1 $0.3233
  • 25 $0.3167
  • 100 $0.3100
  • 1,500 $0.3044
View this part on Master Electronics
0 100
  • 100 $0.3940
  • 200 $0.3900
  • 400 $0.3860
  • 800 $0.2220

Purchasing Insights: AT24C02C-SSHM-B

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Risk Rank

Risk Rank is a proprietary algorithm Supplyframe has developed to quantify component risk rank using multiple data points. This ranking helps engineers and buyers determine whether alternates should be sought for parts that are deemed as high risk.

Risk Rank Example

Risk Rank is determined by a combination of factors such as product lifecycle status, price & inventory votality, current inventory availability, and much more. Even the availability of manufacturer specifications and part documentation, such as datasheets and reference designs, have an impact on determining the overall riskiness of a part.

The risk is characterized across three product phases:

  • Design
  • Production
  • Long Term

For Purchasing Risk Rank, we focus on the Production and the Long Term Phases on Findchips in our evaluation of Risk.

Production Phase

The production phase is when the product is being assembled. Sourcing parts reliably is the essential task during this phase, as it determines whether the product can continue production. During the production phase, there is no time to test new components if something goes awry – the design is the locked-in and a primary risk factor is the component availability in the marketplace. It is possible to utilize alternative parts if things go wrong during this phase, but they need to be FFF (form, fit, function) compatible. Therefore, if a part is available in the online marketplace and has available FFF components, it will be listed as lower risk.

Long Term Phase

The amount of time that a product is manufactured often depends on the industry. Some automobile electronics are made consistently for 5-10 years, whereas military and industrial electronics could be produced from anywhere from 30-50 years.

This means part risk goes up with the likelihood of obsolescence. If a chip manufacturer decides to stop making a particular chip, it is supremely disruptive to mature products, because there may not even be replacement parts available. Other factors like environmental certifications (RoHS) feed into this as well, as non-certified parts are more likely to become obsolete in the future.

We combine both of these aspects into a Purchasing Risk Rank score in order to focus in on risk elements that would be most pertinent for purchasers to be aware of.

Risk Rank Breakdown

Risk Rank: Purchasing Risk

What is purchasing risk rank?

Purchasing Risk Rank is determined by in-depth analysis across risk factors of production risk and long term risk of a given part.

Market Price Analysis

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Part Details for: AT24C02C-SSHM-B

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Parametric Data

Risk Rank

Risk Rank is a proprietary algorithm Supplyframe has developed to quantify component risk rank using multiple data points. This ranking helps engineers and buyers determine whether alternates should be sought for parts that are deemed as high risk.

Risk Rank Example

Risk Rank is determined by a combination of factors such as product lifecycle status, price, inventory votality, current inventory availability, and much more. Even the availability of manufacturer specifications and part documentation, such as datasheets and reference designs, have an impact on determining the overall riskiness of a part.

The risk is characterized across three product phases:

  • Design
  • Production
  • Long Term

We focus on the Design Phase on Findchips in our evaluation of Risk.

Design Phase

The design phase of a product is the beginning of the product lifecycle. This is when engineers are doing analysis of components in the marketplace, determining which specifications are most important for their design and assessing the cost impact of using this particular component. While this is early in the product lifecycle, choices at this point can severely impact a product much later on when the product is being made. Additionally, this stage is the one furthest from a product being made, which is why we focus on metrics of stability over time when determining Design Risk.

Risk Rank Breakdown

Risk Rank: Design Risk

What is design risk rank?

Design Risk Rank is determined by in-depth analysis across risk factors, including part availability, functional equivalents, lifecycle, and more.

Alternate Parts for: AT24C02C-SSHM-B

Part Number Description Manufacturer Compare
AT24C02C-SSHM-T-537 Memory EEPROM, 256X8, Serial, CMOS, PDSO8 Microchip Technology Inc AT24C02C-SSHM-B vs AT24C02C-SSHM-T-537
AT24C02C-SSHM-T Memory IC EEPROM 2KBIT 1MHZ 8SOIC Microchip Technology Inc AT24C02C-SSHM-B vs AT24C02C-SSHM-T
AT24C02C-SSHM-T-899 Memory EEPROM, 256X8, Serial, CMOS, PDSO8 Microchip Technology Inc AT24C02C-SSHM-B vs AT24C02C-SSHM-T-899
Part Number Description Manufacturer Compare
AT24C02C-MA9M-T Memory EEPROM, 256X8, Serial, CMOS, PDSO8 Microchip Technology Inc AT24C02C-SSHM-B vs AT24C02C-MA9M-T
AT24C02C-SSPD-T Memory EEPROM, 256X8, Serial, CMOS, PDSO8, 0.150 INCH, HALOGEN AND LEAD FREE, PLASTIC, MS-012AA, SOIC-8 Atmel Corporation AT24C02C-SSHM-B vs AT24C02C-SSPD-T
34LC02-I/OT Memory 256 X 8 I2C/2-WIRE SERIAL EEPROM, PDSO6, ROHS COMPLIANT, PLASTIC, SOT-23, 6 PIN Microchip Technology Inc AT24C02C-SSHM-B vs 34LC02-I/OT
AT24C02C-SSHM-T-899 Memory EEPROM, 256X8, Serial, CMOS, PDSO8 Microchip Technology Inc AT24C02C-SSHM-B vs AT24C02C-SSHM-T-899
34LC02T-I/MNY Memory 256 X 8 I2C/2-WIRE SERIAL EEPROM, PDSO8, 2 X 3 MM, 0.75 MM HEIGHT, ROHS COMPLIANT, PLASTIC, TDFN-8 Microchip Technology Inc AT24C02C-SSHM-B vs 34LC02T-I/MNY
AT24C02CU3-CUM-T Memory EEPROM, 256KX8, Serial, PBGA8 Microchip Technology Inc AT24C02C-SSHM-B vs AT24C02CU3-CUM-T
IS24C02A-2ZI Memory EEPROM, 256X8, Serial, CMOS, PDSO8, LEAD FREE, MO-153, TSSOP-8 Integrated Silicon Solution Inc AT24C02C-SSHM-B vs IS24C02A-2ZI
IS24C02A-2ZLI-TR Memory EEPROM, 256X8, Serial, CMOS, PDSO8, 3 X 4.40 MM, GREEN, MO-153AA, TSSOP-8 Integrated Silicon Solution Inc AT24C02C-SSHM-B vs IS24C02A-2ZLI-TR
AT24C02C-SSHM-T-537 Memory EEPROM, 256X8, Serial, CMOS, PDSO8 Microchip Technology Inc AT24C02C-SSHM-B vs AT24C02C-SSHM-T-537

Resources and Additional Insights

Reference Designs

  • 16-Bit, 8 Channel, Integrated Analog Input module for Programmable Logic Controllers (PLC)
    TIDA-00164: This reference design provides a complete solution for a single supply industrial control Analog Input Module. The reference design is suitable for process control end equipment like Programmable Logic Controllers (PLC), Distributed Control system (DCS), Data Acquisition Systems (DAS) modules that must digitize standard industrial current inputs and bipolar or unipolar input voltage ranges up to ±10V. In an industrial environment the analog voltage and current ranges typically include ±2.5 V, ±5 V, ±10 V, 0 V to 5 V, 0 V to 10 V, 4 mA to 20 mA, and 0 mA to 20 mA. This reference design can measure all standard industrial voltage and current inputs. Eight channels are provided on the module and each channel can be configured as a current or voltage input with software configuration. The SAR based architecture of ADS8688 leverages better sampling rate. The ADS8688 also includes an on-chip PGA. The on-chip PGAs are used to provide gain and level shift the bipolar signals. The ISO7141 & ISO1541D provides digital signal isolation between host microcontroller and measurement side. The power isolation has been achieved using LM5017 based Flybuck transformer. The module has on-board EEPROM to store calibration data and module configuration data. This reference design also demonstrate the TI products like hot swap & in-rush current limit controller, isolated Flybuck controller, low noise LDO, and I2C to GPIO expander that can be used in the entire PLC signal processing chain. The module has been designed to be pluggable to the IO Controller (TIDA-00123) for quick testing & evaluation. The module reference design also includes external protection circuit and has been tested and verified to be compliant with IEC61000-4 standards – EFT, ESD and Surge requirements with IO Controller platform.
  • Adaptive Power Supply for PLC Analog Output Module with Output Channel Protection
    TIDA-00231: TIDA-00231 is a reference design for an industrial Programmable Logic Controller (PLC) analog output module. The design provides a unique power saving solution for a digital-to-analog converter (DAC)-based analog current output module with an adaptive power supply. This adaptive power supply dynamically regulates the AVDD supply of the DAC and limits power losses to < 50mW for typical load resistance of > 300Ω. The analog output can source current up to 24mA. This reference design includes the necessary on-board protection circuit and has been tested to IEC61000-4 standard EFT, ESD, and surge requirements with IO Controller platforms. The protection circuitry does not negatively affect the design and Test results showed typical unadjusted errors were less than 0.2% FSR and calibrated accuracy is 0.05%. Watch a TIDA-00231 overview video on the Isolated DC/DC Converter reference design NOW
  • Temperature Sensor Interface Module for Programmable Logic Controllers (PLC)
    TIDA-00018: The TIDA-00018 reference design enables faster development of high precision temperature measurement solutions using 24-Bit delta-sigma ADC and most widely used temperature sensors like thermocouple and RTD. The design guide will address the sensor signal conditioning, thermocouple cold junction compensation, ratiometric measurement technique for RTD, recommended software flow, sensor linearization, sensor diagnostics, transient protection, PCB layout and other practical design considerations for achieving high precision robust design for temperature measurement in industrial applications. The Temperature Sensor Interface Module is a fully isolated design, which is essential for small sensor signal measurement. The heart of this reference design is a 24-Bit delta-sigma ADC that provides a high resolution, high integration, low noise, and low cost complete sensor analog front-end (AFE) for DC sensing applications. This ADC also makes it suitable to interface with different types of sensors, thus saving board space, reducing design efforts, decreasing the time to market, and lower BOM cost. Furthermore, external protection circuitry has been successfully tested for compliance with regulatory IEC61000-4 EFT, ESD, and surge standards. Compliance to IEC61000-4 is necessary to ensure that the design not only survives but also perform as intended in the harsh/noisy industrial environment.
  • 16-Bit Analog Mixed Input and Output Module for Programmable Logic Controller (PLC) Reference Design
    TIDA-00170: The TIDA-00170 is a reference design for industrial control Analog Mixed Input Output Modules. The design implements four channel analog input & two channel analog output. The analog input channels can measure all standard industrial voltages up to ±10V and current inputs up to 24mA. The two simultaneous analog outputs can source voltage up to ±10V and current up to 24mA. The reference design includes the necessary on-board protection circuit & is tested for IEC61000-4 standard – EFT, ESD and Surge requirements with IO Controller platform. The protection circuitry does not negatively affect the design and test results showed typical unadjusted errors were less than 0.1% of the full-scale range (FSR) for the analog input channel and less than 0.2% FSR for the analog output channel.

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