From: King Kévin Date: Sun, 26 Mar 2017 17:25:40 +0000 (+0200) Subject: add 1-Wire example using Dallas DS18B20 devices X-Git-Url: https://sigrok.org/gitaction?a=commitdiff_plain;h=f68fd2bd1e18821bfb754c4235085752452f97aa;p=sigrok-dumps.git add 1-Wire example using Dallas DS18B20 devices --- diff --git a/onewire/ds18b20/2xds18b20.sr b/onewire/ds18b20/2xds18b20.sr new file mode 100644 index 0000000..1b71e93 Binary files /dev/null and b/onewire/ds18b20/2xds18b20.sr differ diff --git a/onewire/ds18b20/README b/onewire/ds18b20/README new file mode 100644 index 0000000..9246b32 --- /dev/null +++ b/onewire/ds18b20/README @@ -0,0 +1,63 @@ +------------------------------------------------------------------------------- +Dallas DS18B20 1-Wire digital temperature sensor +------------------------------------------------------------------------------- + +This is a set of example captures of the 1-Wire traffic from Maxim DS18B20 +temperature sensors. + +Details: +https://en.wikipedia.org/wiki/1-Wire +https://datasheets.maximintegrated.com/en/ds/DS18B20.pdf + + +Logic analyzer setup +-------------------- + +The logic analyzer used was a MCU123 Saleae Logic clone (at 8 MHz): + + Probe DS18D20 pin + ----------------------- + 1 (brown) 2 (DQ) + +The sigrok command line used was: + + sigrok-cli -d fx2lafw:samplerate=1mhz --samples 2m --channels 0 -o + + +2xds18b20.sr +------------ + +Two DS18D20 sensors are connected to the 1-Wire bus with following ROM codes: + + - 0x8d011627f794ee28 + (family code: 0x28, serial number: 0x011627f794ee, CRC: 0x8d) + - 0x330216255487ee28 + (family code: 0x28, serial number: 0x0216255487ee, CRC: 0x33) + +The sensors have the same following marking: + + Dallas + 18B20 + 1619C4 + +827AH + +The communication is initiated by a custom 1-Wire master software +implementation for a STM32F103C8 using timers. + +The master performs the following actions: + + - Use Search ROM command to enumerate all 1-Wire devices on the bus so to + count the number of DS10B20 sensors on the bus (two). + - Restart enumeration of each device using the Search ROM command so to store + their ROM code. After enumeration of each device: + - Use Match ROM command to select device. + - Use Read Scratchpad function command to read the 9 scratchpad bytes. + - Use Write Scratchpad function command to write 3 bytes, setting the + temperature conversion precision to 9 bits. + - Use the Copy Scratchpad function command to copy the scratchpad into + the device's internal EEPROM. + - Use Skip ROM command to address all devices. + - Use Convert T function command to start temperature conversion. + - After one second use Match ROM and Read Scratchpad commands on each device + to read the temperature stored in the scratchpad. + - After 1 second use Skip ROM and Convert T commands to start next conversion.