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| author | Uwe Hermann <uwe@hermann-uwe.de> | 2012-04-19 19:04:35 +0200 |
|---|---|---|
| committer | Uwe Hermann <uwe@hermann-uwe.de> | 2012-04-19 19:04:35 +0200 |
| commit | 47cd3c8ff64cd43ddf47f5da497b88e30616b162 (patch) | |
| tree | 8444bb4685c8466920e414ba48cf7ae82e63c70c /i2c | |
| parent | f4298ac310a284590808a47d9e0d33ee449e15c4 (diff) | |
| download | sigrok-dumps-47cd3c8ff64cd43ddf47f5da497b88e30616b162.tar.gz sigrok-dumps-47cd3c8ff64cd43ddf47f5da497b88e30616b162.zip | |
READMEs: Cosmetics, consistency fixes, typos.
Diffstat (limited to 'i2c')
| -rw-r--r-- | i2c/a2_dummy_write/README | 7 | ||||
| -rw-r--r-- | i2c/edid/README | 12 | ||||
| -rw-r--r-- | i2c/gigabyte_6vle-vxl_i2c/README | 2 | ||||
| -rw-r--r-- | i2c/melexis_mlx90614/README | 8 | ||||
| -rw-r--r-- | i2c/rtc_epson_8564je/README | 3 | ||||
| -rw-r--r-- | i2c/trekstor_ebr30_a/README | 4 |
6 files changed, 17 insertions, 19 deletions
diff --git a/i2c/a2_dummy_write/README b/i2c/a2_dummy_write/README index 73e9b88..9bd37f7 100644 --- a/i2c/a2_dummy_write/README +++ b/i2c/a2_dummy_write/README @@ -3,15 +3,14 @@ Dummy I2C writes ------------------------------------------------------------------------------- This an example capture of some dummy I2C traffic, where the master writes -to a slave at address 0x51 (or 0x2a, if the read/write bit is included) -in an infinite loop. The slave does not respond. +to a slave (an RTC) at address 0x51 (or 0x2a, if the read/write bit is +included) in an infinite loop. The slave does not respond. Logic analyzer setup -------------------- -The logic analyzer used for capturing was a ChronoVu LA8 at a sample rate -of 1MHz. The logic analyzer probes were connected to the I2C pins like this: +The logic analyzer used was a ChronoVu LA8 (at 1MHz): Probe RTC chip pin ------------------------ diff --git a/i2c/edid/README b/i2c/edid/README index d8d9795..c49a9ea 100644 --- a/i2c/edid/README +++ b/i2c/edid/README @@ -17,10 +17,10 @@ https://en.wikipedia.org/wiki/Display_Data_Channel samsung_le46b620r3p.sr / samsung_syncmaster245b.sr -------------------------------------------------- -The logic analyzer used was a Saleae Logic at 500kHz: +The logic analyzer used was a Saleae Logic (at 500kHz): - Probe I2C pins - -------------------- + Probe I2C pin + ------------------- 1 (black) SDA 2 (brown) SCL @@ -28,10 +28,10 @@ The logic analyzer used was a Saleae Logic at 500kHz: samsung_syncmaster203b.sr ------------------------- -The logic analyzer used was a Saleae Logic at 1MHz: +The logic analyzer used was a Saleae Logic (at 1MHz): - Probe I2C pins - -------------------- + Probe I2C pin + ------------------- 1 (black) SCL 2 (brown) SDA diff --git a/i2c/gigabyte_6vle-vxl_i2c/README b/i2c/gigabyte_6vle-vxl_i2c/README index 75abedd..6547434 100644 --- a/i2c/gigabyte_6vle-vxl_i2c/README +++ b/i2c/gigabyte_6vle-vxl_i2c/README @@ -22,7 +22,7 @@ http://pdf1.alldatasheet.com/datasheet-pdf/view/90645/ICST/ICS950908.html Logic analyzer setup -------------------- -The logic analyzer used for capturing was a Saleae Logic: +The logic analyzer used was a Saleae Logic (at 2MHz): Probe I2C pin ------------------- diff --git a/i2c/melexis_mlx90614/README b/i2c/melexis_mlx90614/README index 5cf1d25..445ed31 100644 --- a/i2c/melexis_mlx90614/README +++ b/i2c/melexis_mlx90614/README @@ -2,7 +2,7 @@ Melexis MLX90614 Infrared Thermometer ------------------------------------------------------------------------------- -This an a collection of example captures of I2C traffic from/to a +This is a collection of example captures of I2C traffic from/to a Melexis MLX90614 Infrared Thermometer chip. Details: @@ -15,10 +15,10 @@ http://www.melexis.com/Assets/IR-sensor-thermometer-MLX90614-Datasheet-5152.aspx Logic analyzer setup -------------------- -The logic analyzer used for capturing was a Saleae Logic: +The logic analyzer used was a Saleae Logic (at 1MHz): - Probe I2C - ------------------------ + Probe I2C pin + ------------------- 6 (green) SCL 8 (purple) SDA diff --git a/i2c/rtc_epson_8564je/README b/i2c/rtc_epson_8564je/README index decf739..60cd075 100644 --- a/i2c/rtc_epson_8564je/README +++ b/i2c/rtc_epson_8564je/README @@ -9,8 +9,7 @@ which has a slave address of 0x51 (or 0xa2, if the read/write bit is included). Logic analyzer setup -------------------- -The logic analyzer used for capturing was a ChronoVu LA8 at a sample rate -of 1MHz. The logic analyzer probes were connected to the RTC chip like this: +The logic analyzer used was a ChronoVu LA8 (at 1MHz): Probe RTC chip pin ------------------------ diff --git a/i2c/trekstor_ebr30_a/README b/i2c/trekstor_ebr30_a/README index 4b751d8..b4e96a8 100644 --- a/i2c/trekstor_ebr30_a/README +++ b/i2c/trekstor_ebr30_a/README @@ -21,7 +21,7 @@ There are three chips which are connected to the main CPU's SCL/SDA pins: trekstor_ebr30_a_i2c_0x15.sr ---------------------------- -The logic analyzer used for capturing was a ChronoVu LA8: +The logic analyzer used was a ChronoVu LA8 (at 4MHz): Probe I2C pin ------------------- @@ -40,7 +40,7 @@ trekstor_ebr30_a_i2c_30s.sr and trekstor_ebr30_a_i2c_120s.sr This is a 30s/120s dump of the I2C traffic while the device was attached to USB. -The logic analyzer used for capturing was a Saleae Logic: +The logic analyzer used was a Saleae Logic (at 4MHz): Probe I2C pin ------------------- |