STLM20 Grade7(STLM20W87F) is a temperatures sensor IC (-55 °C to +130 °C) made by STMicroelectronics. This posting will provide the OSS-ECAL(Open Source Software for Electronic Components Abstraction Layer) for STLM20 Grade7.
MCU interface : ADC
For Datasheet, please search by model number from here as instructed by STMicroelectronics.
CAUTION:Please be sure to refer to the latest version of the Datasheet prior to actual design.
STLM20 Grade 7(STLM20W87F)
General description
The STLM20 is a precision analog output temperature sensor for low current applications where maximizing battery life is important. It operates over a –55 °C to 130 °C (grade 7) or –40 °C to 85 °C (grade 9) temperature range. The power supply operating range is 2.4 V to 5.5 V. The maximum temperature accuracy of the STLM20 is ± 1.5 °C (±0.5 °C typ) at an ambient temperature of 25 °C and VCC of 2.7 V. The temperature error increases linearly and reaches a maximum of ±2.5 °C at the temperature range extremes. The temperature range is affected by the power supply voltage. For the temperature grade 7 device, a power supply voltage of 2.7 V to 5.5 V, the temperature range extremes are +130 °C and –55 °C (decreasing the power supply voltage from 2.7 V to 2.4 V changes the low end of the operating temperature range from –55 °C to –30 °C, while the positive remains at +130 °C).
The STLM20 has a maximum quiescent supply current of 8 µA. Therefore, self-heating is negligible.
Feature
- Precision analog voltage output temperature sensor
- ±1.5 °C maximum temperature accuracy at 25 °C (±0.5 °C typical)
- Ultra-low quiescent supply current:4.8 µA (typ) and 8.0 µA (max)
- Operating voltage range: 2.4 V to 5.5 V
- Operating temperature range:
–55 °C to 130 °C (grade 7)
–40 °C to 85 °C (grade 9) - SOT323-5L 5-lead package
- UDFN-4L 4-lead package
Application
- Smartphones
- Multimedia PDA devices
- GPS devices
- Portable medical instruments
- Voltage-controlled crystal oscillator temperature monitors
- RF power transistor monitor
OSS-ECAL specification
API Function
etSTS oSTLM20W87F( etCMD cmd, float32* rlt )
Return value
Parameter IN
Parameter OUT
etSTS
etCMD cmd
float32* rlt
OSS-ECAL status code
OSS-ECAL command code
Temperature -55 to 130 [°C]
etCMD
eCMD_START
Feature :
Command to start AD conversion.
Process :
1. AD conversion start.
Command API function :
etSTS oSTLM20W87F_START( void )
Return value :
eSTS_FIN
eSTS_ERR_HAL_ADC
eSTS_ERR_COMMAND_CODE
eSTS_ERR_OTHERS_RUN
eSTS_ERR_ADC_OBJECT
NOTE :
Arduino, Mbeb, ModusToolbox not supported.
eCMD_READ
Feature :
Command that reads the AD conversion value, converts the AD conversion value to a characteristic Temperature, and stores the Temperature in rlt.
Process :
1. Read AD conversion value.
2. Convert AD conversion value to Temperature.
Voltage value = (AD conversion value × VDD) / ( 2AD bit )
Temperature = ((voltage value – voltage offset value) / gain) + Temperature offset value (Min, Max Limit)
3. Store Temperature to rlt.
Command API function :
etSTS oSTLM20W87F_READ( float32* rlt )
Return value :
eSTS_FIN
eSTS_ERR_MIN
eSTS_ERR_MAX
eSTS_ERR_HAL_ADC
eSTS_ERR_COMMAND_CODE
eSTS_ERR_OTHERS_RUN
eSTS_ERR_ADC_OBJECT
NOTE :
Please execute this API function after starting AD conversion.
Arduino, Mbeb, ModusToolbox not supported.
eCMD_START_READ
Feature :
Command that starts AD conversion, waits for AD conversion to finish, reads out the AD conversion value, converts the AD conversion value to a characteristic Temperature, and stores the Temperature in rlt.
Process :
1. AD conversion start.
2. Wait until AD conversion is completed.
3. Read AD conversion value.
4. Convert AD conversion value to Temperature.
Voltage value = (AD conversion value × VDD) / ( 2AD bit )
Temperature = ((voltage value – voltage offset value) / gain) + Temperature offset value (Min, Max Limit)
5. Store Temperature to rlt.
Command API function :
etSTS oSTLM20W87F_START_READ( float32* rlt )
Return value :
eSTS_FIN
eSTS_ERR_MIN
eSTS_ERR_MAX
eSTS_ERR_HAL_ADC
eSTS_ERR_COMMAND_CODE
eSTS_ERR_OTHERS_RUN
eSTS_ERR_ADC_OBJECT
NOTE :
Files
Folder* | File | summary |
---|---|---|
STLM20W87F_HALNAME/sample | sample.c (.cpp) | Sample Application Program |
| sample.h | Sample Application Header |
STLM20W87F_HALNAME | oSTLM20W87F.c (.cpp) | OSS-ECAL Program for STLM20W87F |
| oSTLM20W87F.h | OSS-ECAL Header for STLM20W87F |
| oss_ecal.h | OSS-ECAL Common Header (Ver 01.00.00 or later) |
| user_setting.c (.cpp) | Const and Table of User setting |
| user_setting.h | Header of User setting |
| readme.md | Readme |
| OSS-ECAL Terms of Use.txt | OSS-ECAL Terms of Use |
* For HALNAME, please refer to HAL Support.
HAL Support List
MCU/Board manufacturer | HAL | MCU* | Development environment* | HALNAME |
---|---|---|---|---|
Arduino | Arduino 1.8.6 | ATmega2560 ATmega328P | Mega 2560 Rev3 Arduino Pro Mini 3.3V | ARDUINO |
ARM | Mbed 6.17.0 | STM32F401RETx | STM32 Nucleo-64 boards | MBED |
Infineon | ModusToolbox HAL Cat1 2.4.3 | CYBLE-416045-02 | CY8CPROTO-063-BLE PSoC 6 BLE Prototyping Kit | ModusToolbox |
NXP | MCUXpresso SDK iMXRT1051B_1052B ksdk2_0 | CYBLE-416045-02 | IMXRT1050-EVKB | iMXRT1051B1052B |
Renesas | SSP 2.4.0 | R7FS7G27H3A01CFC | S7G2 SK | SSP |
STM | STM32Cube FW_F4 V1.27.1 | STM32F401RETx | STM32 Nucleo-64 boards | STM32F4 |
* MCU and development environment at the time of development. Even if the same HAL is used, different MCUs and development environments may not work together.
OSS-ECAL Download
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HAL | Download OSS-ECAL Ver |
---|---|
Arduino 1.8.6 | |
Mbed 6.17.0 | |
ModusToolbox HAL Cat1 2.4.3 | |
MCUXpresso SDK iMXRT1051B_1052B ksdk2_0 | |
SSP 2.4.0 | |
STM32Cube FW_F4 V1.27.1 |
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If you are unable to download the File, please contact us and let us know the model number and HAL type. We will send you the file as an email attachment.
Built-in How to
How to incorporate OSS-ECAL into user programs
How to incorporate multiple OSS-ECALs in a user program (same MCU function)
How to incorporate multiple OSS-ECALs in a user program (different MCU function)
How to incorporate multiple identical electronic components into a user program
How to reduce the impact on user programs by replacing electronic components