]> sigrok.org Git - sigrok-dumps.git/commitdiff
Rename a0_dummy_write/ to a2_dummy_write.
authorUwe Hermann <redacted>
Thu, 24 Nov 2011 19:38:58 +0000 (20:38 +0100)
committerUwe Hermann <redacted>
Thu, 24 Nov 2011 19:38:58 +0000 (20:38 +0100)
i2c/a0_dummy_write/README [deleted file]
i2c/a0_dummy_write/a2_dummy_write.sr [deleted file]
i2c/a2_dummy_write/README [new file with mode: 0644]
i2c/a2_dummy_write/a2_dummy_write.sr [new file with mode: 0644]

diff --git a/i2c/a0_dummy_write/README b/i2c/a0_dummy_write/README
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@@ -1,36 +0,0 @@
--------------------------------------------------------------------------------
-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.
-
-
-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:
-
-  Probe       RTC chip pin
-  ------------------------
-  0 (green)   SCL
-  1 (orange)  SDA
-  GND         GND
-
-
-Data
-----
-
-This is what the decoded data should look like:
-
- - S Wr:0xa2 A 0x55 A 0x66 A P
-
- - The abbreviations used above: S = Start, Wr = Write, A = ACK, P = Stop
-
-The sigrok command line used was:
-
-  sigrok-cli -d 0:samplerate=1mhz --samples 8388608 \
-             -p '1=SCL,2=SDA' -o a2_dummy_write.sr
-
diff --git a/i2c/a0_dummy_write/a2_dummy_write.sr b/i2c/a0_dummy_write/a2_dummy_write.sr
deleted file mode 100644 (file)
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diff --git a/i2c/a2_dummy_write/README b/i2c/a2_dummy_write/README
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@@ -0,0 +1,36 @@
+-------------------------------------------------------------------------------
+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.
+
+
+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:
+
+  Probe       RTC chip pin
+  ------------------------
+  0 (green)   SCL
+  1 (orange)  SDA
+  GND         GND
+
+
+Data
+----
+
+This is what the decoded data should look like:
+
+ - S Wr:0xa2 A 0x55 A 0x66 A P
+
+ - The abbreviations used above: S = Start, Wr = Write, A = ACK, P = Stop
+
+The sigrok command line used was:
+
+  sigrok-cli -d 0:samplerate=1mhz --samples 8388608 \
+             -p '1=SCL,2=SDA' -o a2_dummy_write.sr
+
diff --git a/i2c/a2_dummy_write/a2_dummy_write.sr b/i2c/a2_dummy_write/a2_dummy_write.sr
new file mode 100644 (file)
index 0000000..1a11c73
Binary files /dev/null and b/i2c/a2_dummy_write/a2_dummy_write.sr differ