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CC2541F256RHAR by: Texas Instruments

Overview of: CC2541F256RHAR by Texas Instruments

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View this part on Newark
0 1 TAPE & REEL CUT
  • 1 $5.6200
  • 10 $5.3800
  • 25 $5.1100
  • 50 $4.8800
  • 100 $4.6700
  • 250 $4.5300
  • 500 $4.4200
  • 1,000 $4.3400
View this part on Ameya Holding Limited
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View this part on CHIPMALL.COM LIMITED
10,584 1
  • 1 $1.9265
  • 10 $1.7004
  • 30 $1.5402
  • 100 $1.3951
  • 500 $1.3276
  • 1,000 $1.2990
View this part on element14 Asia-Pacific
0 1 TAPE & REEL CUT
  • 1 $5.5674
  • 10 $5.1204
View this part on Farnell
0 1 TAPE & REEL CUT
  • 1 $5.5592
  • 10 $4.9931
  • 25 $4.7213
  • 50 $4.4043
  • 100 $4.0873
View this part on Farnell
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  • 50 $4.4043
  • 100 $4.0873
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5,373 100
  • 100 $13.8800
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491 1
  • 1 $1.9348
  • 10 $1.7093
  • 30 $1.5492
  • 100 $1.4046
  • 500 $1.3375
  • 1,000 $1.3100
View this part on Sense Electronic Company Limited
2,500 1
View this part on Win Source Electronics
295,400 19
  • 19 $2.6460
  • 46 $2.1940
  • 71 $2.1290
  • 97 $2.0650
  • 125 $2.0000
  • 167 $1.8070

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

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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.

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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.

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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.

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Part Details for: CC2541F256RHAR

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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

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.

Resources and Additional Insights

Reference Designs

  • CC2541-TPS62730EM-RD CC2541-TPS62730EM Reference Design | TI.com
    CC2541-TPS62730EM-RD: The CC2541EM-TPS62730EM reference design contains schematics and layout files for the CC2541EM-TPS62730EM module. The reference design demonstrates good techniques for CC2541 decoupling and RF layout. For optimum RF performance, the reference design should be copied accurately. This is a 4-layer reference design with an SMA antenna connector for RF output matched to 50 ohm. Along with that, it shows the proper way to supply the CC2541 with the TPS62730 DC/DC converter for current savings of up to 30% in active mode. The TPS62730 converter is controlled by the CC2541.
  • TIDA-00010 Pulse Oximeter via Finger Clip Reference Design with BLE Connectivity | TI.com
    TIDA-00010: This reference design is for a complete SPO2 Pulse Oximeter finger clip end equipment featuring TI signal chain, power, and connectivity components. With TI's AFE4490 Pulse Ox AFE, you can accelerate and simplify your pulse ox design while still ensuring the highest of quality clinical measurements. This reference design also includes a full BLE connectivity design for easy interface to BLE enabled smartphones, tablets, etc.
  • Bluetooth Low Energy keyboard reference design
    TIDM-BLE-KEYBOARD: This solution implements a keyboard for any operation system which supports HOGP (Hid Over GATT Profile). It is designed to have ultra low-power consumption for a substantial time working with Bluetooth Low Energy technology. CC2541 and MSP430 are used in this design to handle BLE stack, key-matrix scan and power management work.
  • Optical Heart Rate Monitor Reference Design with BLE Connectivity
    TIDA-00011: This reference design is for a complete Optical Heart Rate Monitor wrist watch (no chest strap!) end equipment featuring TI signal chain, power, and connectivity components. With TI's AFE4400 AFE, you can accelerate and simplify your wrist based HRM design while still ensuring measurement performance needed for serious Fitness designs. This reference design also includes a full BLE connectivity design for easy interface to BLE enabled smartphones, tablets, etc.
  • TIDA-00096 Wireless Heart Monitor with Bluetooth Low Energy | TI.com
    TIDA-00096: The Wireless Heart Rate Monitor with Bluetooth low-energy (BLE) is intended as a reference design that customers can use to develop end-products for battery-powered, 3-channel health and fitness electrocardiogram (ECG) applications. The ADS1293 is a highly integrated low-power analog front end (AFE) which features three high-resoluiton ECG channels. The CC2541 system-on-chip (SoC) adds a BLE wireless feature to the platform which enables seamless connectivity to an iPhone(R) or an iPad(R) through a configurable iOS application where the end-user can remotely monitor a patient's heart rate data.
  • TIDC-BLUETOOTH-LOW-ENERGY-LONG-RANGE Bluetooth Low Energy Long Range | TI.com
    TIDC-BLUETOOTH-LOW-ENERGY-LONG-RANGE: TIDC-BLUETOOTH-LOW-ENERGY-LONG-RANGE is a Bluetooth Smart reference design for long range applications. Use the CC2590 range extender to increase output power and improve sensitivity and thus achieve much longer range.
  • CC2541-CC2590EM Reference Design
  • SensorTag with iBeacon™ technology
    CC2541-SENSORTAG-IBEACON-RD: The SimpleLink Bluetooth® Smart SensorTag removes the barriers to entry for smartphone app developers who want to take advantage of the growing number of Bluetooth® Smart-enabled smartphones and tablets. iBeacon Technology is a very low cost method for providing mobile phones with “indoor GPS” location feature: a functionality that is being used by many retail shops, museums and restaurants to display relevant information to users. The new iBeacon SensorTag app and reference design deliver fast time to market of new apps and devices for asset tracking, indoor locationing and point of sale applications.
  • CC2541-CC2590EM-RD CC2541-CC2590EM Reference Design | TI.com
  • CC2541 Keyfob Reference Design
    CC2541KEYFOB-RD: The Bluetooth Smart Keyfob is a small-form factor, coin-cell powered mobile accessory with buttons, buzzer, LEDs and accelerometer, demonstrating the use of several of the BLE GATT service profiles, like the proximity and battery service profiles.
  • Hand-to-Hand Body Composition Meter Reference Design with BLE Connectivity
    TIDA-00008: This reference design is for a complete hand-held body composition or fat loss monitor end equipment featuring TI signal chain, power, and connectivity components. With TI's AFE4300 body composition AFE, you can accelerate your body composition design to develop more quickly. This reference design also includes the full BLE connectivity design for easy interface to BLE enabled smartphones, tablets, etc.
  • TIDA-00356 Automotive Door Control Switch Reference Design | TI.com
    TIDA-00356: This automotive door control switch reference design showcases a proof-of-concept solution for an automotive door control switch panel that communicates wirelessly to the door side mirror, window lift and door lock mechanisms. Using TI's automotive qualified BLE + MCU CC2541-Q1 system-on-chip solution, this reference design enables cost, weight, and ultimately fuel savings by replacing expensive and heavy cable harnesses.
  • CC2541EM Reference Design
    CC2541EM-RD: The CC2541EM (evaluation module) reference design contains schematics and layout files for the CC2541EM module. The reference design demonstrates good techniques for CC2541 decoupling and RF layout. For optimum RF performance, the reference design should be copied accurately. There are several reference designs to choose from; a 4-layer PCB reference design with an SMA antenna connector for RF output matched to 50 ohm or a 2-layer PCB reference design with the option of using an SMA antenna connector for RF output matched to 50 ohm or an on board inverted F antenna.
  • CC2541-TPS62730EM Reference Design
    CC2541-TPS62730EM-RD: The CC2541EM-TPS62730EM reference design contains schematics and layout files for the CC2541EM-TPS62730EM module. The reference design demonstrates good techniques for CC2541 decoupling and RF layout. For optimum RF performance, the reference design should be copied accurately. This is a 4-layer reference design with an SMA antenna connector for RF output matched to 50 ohm. Along with that, it shows the proper way to supply the CC2541 with the TPS62730 DC/DC converter for current savings of up to 30% in active mode. The TPS62730 converter is controlled by the CC2541.
  • Indoor Light Energy Harvesting Reference Design for Bluetooth Low Energy (BLE) Beacon Subsystem
    TIDA-00100: The Indoor Light Energy Harvesting Reference Design for Bluetooth Low Energy (BLE) Beacon Subsystem provides a solution where by with just the power of the typical indoor lighting in a retail environment (greater than 250 LUX) the Bluetooth Low Energy chip can broadcast BLE beacons. This subsystem reference design is highly differentiated over existing solutions as it incorporates no batteries, thus eliminating the hassle of battery replacement, battery charging, and saving costs associated with battery maintenance. This solution also ensures that there are no constraints around installation as long as there is typical indoor lighting available. There is also no ON/OFF switch; the entire load connection and disconnection is handled by the power management IC therefore ensuring that the solution is self managing.
  • TIDA-00008 Hand-to-Hand Body Composition Meter Reference Design with BLE Connectivity | TI.com
    TIDA-00008: This reference design is for a complete hand-held body composition or fat loss monitor end equipment featuring TI signal chain, power, and connectivity components. With TI's AFE4300 body composition AFE, you can accelerate your body composition design to develop more quickly. This reference design also includes the full BLE connectivity design for easy interface to BLE enabled smartphones, tablets, etc.
  • CC2541-SENSORTAG-IBEACON-RD SensorTag with iBeacon™ technology | TI.com
    CC2541-SENSORTAG-IBEACON-RD: The SimpleLink Bluetooth® Smart SensorTag removes the barriers to entry for smartphone app developers who want to take advantage of the growing number of Bluetooth® Smart-enabled smartphones and tablets. iBeacon Technology is a very low cost method for providing mobile phones with “indoor GPS” location feature: a functionality that is being used by many retail shops, museums and restaurants to display relevant information to users. The new iBeacon SensorTag app and reference design deliver fast time to market of new apps and devices for asset tracking, indoor locationing and point of sale applications.
  • TIDA-00292 Biometric Steering Wheel Reference Design | TI.com
    TIDA-00292: This reference design is for a concept demonstration of how a driver's pulse rate, respiration rate, and ECG based heart rate can be obtained from a vehicle steering wheel. AFE4400 and AFE4300 from TI's biometric family of analog front-ends (AFE), enables acquisition of all three parameters via simple hand contacts on the steering wheel. This reference design also includes a full BLE connectivity design for easy interface to BLE enabled smartphones, tablets, etc
  • CC2541 Postage Stamp Reference Design
    CC2541-POSTAGE-STAMP-RD: The CC2541 Postage Stamp reference design contains the schematics and layout files for the CC2541PS Module. The reference design demonstrates good techniques for CC2541 decoupling and RF layout for a very compact 16.3mm x 13mm PCB . For optimum RF performance, the reference design should be copied accurately. This is a 2-layer PCB reference design using an integrated solution of a Johanson Chip balun(2450BM15A0002) and a Johanson chip antenna(2450AT42A100). The CC2541 Postage stamp is perfect for applications requiring proximity detecting and temperature sensing. It is ideal for proof of concept prototyping on existing systems.
  • CC2541SENSORTAG-RD CC2541 SensorTag Reference Design | TI.com
    CC2541SENSORTAG-RD: The Bluetooth® low energy SensorTag from TI is designed to shorten the design time for Bluetooth app development from months to hours. The SensorTag is the first Bluetooth low energy development kit focusing on sensor applications and it is the only kit also targeting smartphone app developers. With a downloadable SensorTag App and no required hardware or software expertise, the kit removes the barriers to entry for smartphone app developers who want to take advantage of the growing number of Bluetooth low energy-enabled smartphones and tablets.
  • Automotive Wireless External Mirror Control Reference Design
    TIDA-00357: This automotive wireless external mirror control reference design showcases a proof-of-concept solution for an automotive power side view mirror that communicates wirelessly with a control switch. Using TI's automotive-qualified BLE + MCU CC2541-Q1 system-on-chip solution, this reference design enables cost, weight, and fuel savings by replacing expensive and heavy cable harnesses. This SoC also pairs seamlessly with TI's integrated H-bridge motor driver solutions, DRV8801-Q1 and DRV8802-Q1, for fold and mirror position adjustment features. Also, to drive the mirror's heating element, TI's single channel integrated smart FET TPS1H100B-Q1 is used.
  • CC2541-POSTAGE-STAMP-RD CC2541 Postage Stamp Reference Design | TI.com
    CC2541-POSTAGE-STAMP-RD: The CC2541 Postage Stamp reference design contains the schematics and layout files for the CC2541PS Module. The reference design demonstrates good techniques for CC2541 decoupling and RF layout for a very compact 16.3mm x 13mm PCB . For optimum RF performance, the reference design should be copied accurately. This is a 2-layer PCB reference design using an integrated solution of a Johanson Chip balun(2450BM15A0002) and a Johanson chip antenna(2450AT42A100). The CC2541 Postage stamp is perfect for applications requiring proximity detecting and temperature sensing. It is ideal for proof of concept prototyping on existing systems.
  • Biometric Steering Wheel Reference Design
    TIDA-00292: This reference design is for a concept demonstration of how a driver's pulse rate, respiration rate, and ECG based heart rate can be obtained from a vehicle steering wheel. AFE4400 and AFE4300 from TI's biometric family of analog front-ends (AFE), enables acquisition of all three parameters via simple hand contacts on the steering wheel. This reference design also includes a full BLE connectivity design for easy interface to BLE enabled smartphones, tablets, etc
  • CC2541KEYFOB-RD CC2541 Keyfob Reference Design | TI.com
    CC2541KEYFOB-RD: The Bluetooth Smart Keyfob is a small-form factor, coin-cell powered mobile accessory with buttons, buzzer, LEDs and accelerometer, demonstrating the use of several of the BLE GATT service profiles, like the proximity and battery service profiles.
  • TIDA-00011 Optical Heart Rate Monitor Reference Design with BLE Connectivity | TI.com
    TIDA-00011: This reference design is for a complete Optical Heart Rate Monitor wrist watch (no chest strap!) end equipment featuring TI signal chain, power, and connectivity components. With TI's AFE4400 AFE, you can accelerate and simplify your wrist based HRM design while still ensuring measurement performance needed for serious Fitness designs. This reference design also includes a full BLE connectivity design for easy interface to BLE enabled smartphones, tablets, etc.
  • TIDA-00009 Body Weight Scale Reference Design with Body Composition capability and BLE Connectivity | TI.com
    TIDA-00009: This reference design is for a complete body weight scale end equipment with body composition capability featuring TI signal chain, power, and connectivity components. With TI's AFE4300 weigh scale/body composition AFE, you can accelerate your body weight scale design or quickly add body composition measurement features to your existing platform. This reference design also includes the full BLE connectivity design for easy interface to BLE enabled smartphones, tablets, etc.
  • Bluetooth Low Energy Long Range
    TIDC-BLUETOOTH-LOW-ENERGY-LONG-RANGE: TIDC-BLUETOOTH-LOW-ENERGY-LONG-RANGE is a Bluetooth Smart reference design for long range applications. Use the CC2590 range extender to increase output power and improve sensitivity and thus achieve much longer range.
  • TIDM-BLE-KEYBOARD Bluetooth Low Energy keyboard reference design | TI.com
    TIDM-BLE-KEYBOARD: This solution implements a keyboard for any operation system which supports HOGP (Hid Over GATT Profile). It is designed to have ultra low-power consumption for a substantial time working with Bluetooth Low Energy technology. CC2541 and an ultra-low-power MSP MCU are used in this design to handle BLE stack, key-matrix scan and power management work.
  • Wireless Heart Monitor with Bluetooth Low Energy
    TIDA-00096: The Wireless Heart Rate Monitor with Bluetooth low-energy (BLE) is intended as a reference design that customers can use to develop end-products for battery-powered, 3-channel health and fitness electrocardiogram (ECG) applications. The ADS1293 is a highly integrated low-power analog front end (AFE) which features three high-resoluiton ECG channels. The CC2541 system-on-chip (SoC) adds a BLE wireless feature to the platform which enables seamless connectivity to an iPhone(R) or an iPad(R) through a configurable iOS application where the end-user can remotely monitor a patient's heart rate data.
  • Body Weight Scale Reference Design with Body Composition capability and BLE Connectivity
    TIDA-00009: This reference design is for a complete body weight scale end equipment with body composition capability featuring TI signal chain, power, and connectivity components. With TI's AFE4300 weigh scale/body composition AFE, you can accelerate your body weight scale design or quickly add body composition measurement features to your existing platform. This reference design also includes the full BLE connectivity design for easy interface to BLE enabled smartphones, tablets, etc.
  • TIDA-00100 Indoor Light Energy Harvesting Reference Design for Bluetooth Low Energy (BLE) Beacon Subsystem | TI.com
    TIDA-00100: The Indoor Light Energy Harvesting Reference Design for Bluetooth Low Energy (BLE) Beacon Subsystem provides a solution where by with just the power of the typical indoor lighting in a retail environment (greater than 250 LUX) the Bluetooth Low Energy chip can broadcast BLE beacons. This subsystem reference design is highly differentiated over existing solutions as it incorporates no batteries, thus eliminating the hassle of battery replacement, battery charging, and saving costs associated with battery maintenance. This solution also ensures that there are no constraints around installation as long as there is typical indoor lighting available. There is also no ON/OFF switch; the entire load connection and disconnection is handled by the power management IC therefore ensuring that the solution is self managing.
  • TIDA-00357 Automotive Wireless External Mirror Control Reference Design | TI.com
    TIDA-00357: This automotive wireless external mirror control reference design showcases a proof-of-concept solution for an automotive power side view mirror that communicates wirelessly with a control switch. Using TI's automotive-qualified BLE + MCU CC2541-Q1 system-on-chip solution, this reference design enables cost, weight, and fuel savings by replacing expensive and heavy cable harnesses. This SoC also pairs seamlessly with TI's integrated H-bridge motor driver solutions, DRV8801-Q1 and DRV8802-Q1, for fold and mirror position adjustment features. Also, to drive the mirror's heating element, TI's single channel integrated smart FET TPS1H100B-Q1 is used.
  • Gas Sensor Platform with Bluetooth Low Energy
    TIDA-00056: This reference design is a low-power wireless gas sensor solution that supports a wide array of electrochemical gas sensors. With the versatility of a configurable interface for either Bluetooth® Low Energy, Zigbee RF4CE, 6LoWPAN or ANT this flexible and certified sensor solution is ideal for various building safety, industrial process control, mining, and health care applications.
  • TIDA-00056 Gas Sensor Platform with Bluetooth Low Energy | TI.com
    TIDA-00056: This reference design is a low-power wireless gas sensor solution that supports a wide array of electrochemical gas sensors. With the versatility of a configurable interface for either Bluetooth® Low Energy, Zigbee RF4CE, 6LoWPAN or ANT this flexible and certified sensor solution is ideal for various building safety, industrial process control, mining, and health care applications.
  • Automotive Door Control Switch Reference Design
    TIDA-00356: This automotive door control switch reference design showcases a proof-of-concept solution for an automotive door control switch panel that communicates wirelessly to the door side mirror, window lift and door lock mechanisms. Using TI's automotive qualified BLE + MCU CC2541-Q1 system-on-chip solution, this reference design enables cost, weight, and ultimately fuel savings by replacing expensive and heavy cable harnesses.
  • CC2541EM-RD CC2541EM Reference Design | TI.com
    CC2541EM-RD: The CC2541EM (evaluation module) reference design contains schematics and layout files for the CC2541EM module. The reference design demonstrates good techniques for CC2541 decoupling and RF layout. For optimum RF performance, the reference design should be copied accurately. There are several reference designs to choose from; a 4-layer PCB reference design with an SMA antenna connector for RF output matched to 50 ohm or a 2-layer PCB reference design with the option of using an SMA antenna connector for RF output matched to 50 ohm or an on board inverted F antenna.
  • CC2541 SensorTag Reference Design
    CC2541SENSORTAG-RD: The Bluetooth® low energy SensorTag from TI is designed to shorten the design time for Bluetooth app development from months to hours. The SensorTag is the first Bluetooth low energy development kit focusing on sensor applications and it is the only kit also targeting smartphone app developers. With a downloadable SensorTag App and no required hardware or software expertise, the kit removes the barriers to entry for smartphone app developers who want to take advantage of the growing number of Bluetooth low energy-enabled smartphones and tablets.
  • Pulse Oximeter via Finger Clip Reference Design with BLE Connectivity
    TIDA-00010: This reference design is for a complete SPO2 Pulse Oximeter finger clip end equipment featuring TI signal chain, power, and connectivity components. With TI's AFE4490 Pulse Ox AFE, you can accelerate and simplify your pulse ox design while still ensuring the highest of quality clinical measurements. This reference design also includes a full BLE connectivity design for easy interface to BLE enabled smartphones, tablets, etc.

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