- Forums
- Product Forums
- General Purpose MicrocontrollersGeneral Purpose Microcontrollers
- i.MX Forumsi.MX Forums
- QorIQ Processing PlatformsQorIQ Processing Platforms
- Identification and SecurityIdentification and Security
- Power ManagementPower Management
- Wireless ConnectivityWireless Connectivity
- RFID / NFCRFID / NFC
- Advanced AnalogAdvanced Analog
- MCX Microcontrollers
- S32G
- S32K
- S32V
- MPC5xxx
- Other NXP Products
- S12 / MagniV Microcontrollers
- Powertrain and Electrification Analog Drivers
- Sensors
- Vybrid Processors
- Digital Signal Controllers
- 8-bit Microcontrollers
- ColdFire/68K Microcontrollers and Processors
- PowerQUICC Processors
- OSBDM and TBDML
- S32M
- S32Z/E
-
- Solution Forums
- Software Forums
- MCUXpresso Software and ToolsMCUXpresso Software and Tools
- CodeWarriorCodeWarrior
- MQX Software SolutionsMQX Software Solutions
- Model-Based Design Toolbox (MBDT)Model-Based Design Toolbox (MBDT)
- FreeMASTER
- eIQ Machine Learning Software
- Embedded Software and Tools Clinic
- S32 SDK
- S32 Design Studio
- GUI Guider
- Zephyr Project
- Voice Technology
- Application Software Packs
- Secure Provisioning SDK (SPSDK)
- Processor Expert Software
- Generative AI & LLMs
-
- Topics
- Mobile Robotics - Drones and RoversMobile Robotics - Drones and Rovers
- NXP Training ContentNXP Training Content
- University ProgramsUniversity Programs
- Rapid IoT
- NXP Designs
- SafeAssure-Community
- OSS Security & Maintenance
- Using Our Community
-
- Cloud Lab Forums
-
- Knowledge Bases
- ARM Microcontrollers
- i.MX Processors
- Identification and Security
- Model-Based Design Toolbox (MBDT)
- QorIQ Processing Platforms
- S32 Automotive Processing Platform
- Wireless Connectivity
- CodeWarrior
- MCUXpresso Suite of Software and Tools
- MQX Software Solutions
- RFID / NFC
- Advanced Analog
-
- NXP Tech Blogs
- Home
- :
- 製品フォーラム
- :
- 8ビットマイクロコントローラ
- :
- Re: MAX Voltage Input on ADC - 13193EVB
MAX Voltage Input on ADC - 13193EVB
- RSS フィードを購読する
- トピックを新着としてマーク
- トピックを既読としてマーク
- このトピックを現在のユーザーにフロートします
- ブックマーク
- 購読
- ミュート
- 印刷用ページ
MAX Voltage Input on ADC - 13193EVB
- 新着としてマーク
- ブックマーク
- 購読
- ミュート
- RSS フィードを購読する
- ハイライト
- 印刷
- 不適切なコンテンツを報告
Does anybody know what is the max voltage input of the ADC on a 13193EVB Board?
I have a 5V input to digitalize, and don't know if the board supports it.
Thanks in advance.
Rafael.
- 新着としてマーク
- ブックマーク
- 購読
- ミュート
- RSS フィードを購読する
- ハイライト
- 印刷
- 不適切なコンテンツを報告
The 13193EVB uses the MC9S08GT60 microcontroller, which is designed for a maximum voltage of 3.3 volts. However, the voltage regulator supplies the GT60 with 3.0 volts. The Vrefh input is 3 volts as well, and that sets the maximum input voltage for the ADC on this board.
If your voltage source allows, you could use a pair of precision resistors to divide down the 5 volts to 3 volts.
hope that helps. . .
Message Edited by rocco on 05-29-200602:31 PM
- 新着としてマーク
- ブックマーク
- 購読
- ミュート
- RSS フィードを購読する
- ハイライト
- 印刷
- 不適切なコンテンツを報告
I wasn't clear enough, sorry.
My problem is, my input signal on the ADC is up to 5V, and I wanted to know if the board supports this level of signal to digitalize.
I didn't mean the input voltage, as to energy source, sorry about this.
Rafael.
- 新着としてマーク
- ブックマーク
- 購読
- ミュート
- RSS フィードを購読する
- ハイライト
- 印刷
- 不適切なコンテンツを報告
Hi Rafael,
You were clear enough the first time, I think you have misinterpreted rocco's response.
The S08GT can be powered by MAX 3.3volts on this board it is powered by 3.0volts. You CANNOT feed more than the supply voltage into the ADC!
If you do you risk damaging the MCU. There is no benefit in trying as when the ADC input equals the supply rail to the MCU you will get max value and it won't go any higher. You can probably use a resistive voltage divider into the ADC input to reduce your input voltage. But be careful not to make your input impedance to high or you will get inaccurate readings using this type of ADC.
Regards David
- 新着としてマーク
- ブックマーク
- 購読
- ミュート
- RSS フィードを購読する
- ハイライト
- 印刷
- 不適切なコンテンツを報告
But... which valeu range should I consider to be of high impedance?
- 新着としてマーク
- ブックマーク
- 購読
- ミュート
- RSS フィードを購読する
- ハイライト
- 印刷
- 不適切なコンテンツを報告
Hello ramanoar,
For 10-bit accuracy, the equivalent source resistance at the ATD input pin should not exceed 10k ohm. This is the value of the parallel combination of the two resistors of the voltage divider. For example, if you chose resistor values of 10k (series) and 15k (shunt), this would give a source resistance of 6k ohm. A capacitor, typically 100nF, should also be connected between the input pin and ground.
However, this also assumes that your source resistance for the 5 volt signal is low. With the above voltage divider values, and for an error less than 1 LSB at 10-bit resolution, the source resistance should not exceed 240 ohms.
Regards,
Mac
Message Edited by bigmac on 2006-06-07 10:37 AM
