+++ /dev/null
--------------------------------------------------------------------------------
-MAX6921 Shift Register
--------------------------------------------------------------------------------
-
-This is a capture of data output to a MAX6921 high voltage shift register that
-was outputting data for a VFD clock.
-
-The signals were grabbed on a 28-pin PLCC chip (MAX6921) which outputs 20-bits
-that is crafted as a design for VFD applications.
-
-Logic analyzer setup
---------------------
-
-The logic analyzer used was Open Bench Logic Sniffer (at 10Mhz):
-
- Probe MAX6921 Pin
- --------------------------
- 0 LOAD
- 1 DATA
- 2 CLK
- 3 BLANK (PWM Brightness Control)
-
-Data
-----
-
-The data contain various values for the VFD being driven, as reference at the
-prototype Nixie Cape for the Beaglebone.
-
- Digit Bit
- --------------------------
- 0 1<<12
- 1 1<<19
- 2 1<<13
- 3 1<<18
- 4 1<<14
- 5 1<<17
- 6 1<<16
- 7 1<<15
- 8 1<<15
- 9 1<<11
-
- Segment Bit
- ---------------------------
- SEG_A 1<<0
- SEG_B 1<<1
- SEG_C 1<<2
- SEG_D 1<<3
- SEG_E 1<<4
- SEG_F 1<<5
- SEG_G 1<<6
- SEG_H 1<<7
-
-
-References:
------------
-
- * BeagleBoard.org Vendor Tree (https://github.com/beagleboard/kernel)
- * Beagle Nixie GitHub (https://github.com/mranostay/beagle-nixie/)
- * MAX6921 Datasheet (http://datasheets.maximintegrated.com/en/ds/MAX6921-MAX6931.pdf)
-
-The sigrok command line used was:
-
- sigrok-cli --driver=ols:conn=/dev/ttyACM0 -d samplerate=10mhz \
- -samples=24576 -p 0=LOAD,1=DATA,2=CLK,3=BLANK -o max6921_data_10mhz.sr
-
--- /dev/null
+-------------------------------------------------------------------------------
+MAX6921 Shift Register
+-------------------------------------------------------------------------------
+
+This is a capture of data output to a MAX6921 high voltage shift register that
+was outputting data for a VFD clock.
+
+The signals were grabbed on a 28-pin PLCC chip (MAX6921) which outputs 20-bits
+that is crafted as a design for VFD applications.
+
+Logic analyzer setup
+--------------------
+
+The logic analyzer used was Open Bench Logic Sniffer (at 10Mhz):
+
+ Probe MAX6921 Pin
+ --------------------------
+ 0 LOAD
+ 1 DATA
+ 2 CLK
+ 3 BLANK (PWM Brightness Control)
+
+Data
+----
+
+The data contain various values for the VFD being driven, as reference at the
+prototype Nixie Cape for the Beaglebone.
+
+ Digit Bit
+ --------------------------
+ 0 1<<12
+ 1 1<<19
+ 2 1<<13
+ 3 1<<18
+ 4 1<<14
+ 5 1<<17
+ 6 1<<16
+ 7 1<<15
+ 8 1<<15
+ 9 1<<11
+
+ Segment Bit
+ ---------------------------
+ SEG_A 1<<0
+ SEG_B 1<<1
+ SEG_C 1<<2
+ SEG_D 1<<3
+ SEG_E 1<<4
+ SEG_F 1<<5
+ SEG_G 1<<6
+ SEG_H 1<<7
+
+
+References:
+-----------
+
+ * BeagleBoard.org Vendor Tree (https://github.com/beagleboard/kernel)
+ * Beagle Nixie GitHub (https://github.com/mranostay/beagle-nixie/)
+ * MAX6921 Datasheet (http://datasheets.maximintegrated.com/en/ds/MAX6921-MAX6931.pdf)
+
+The sigrok command line used was:
+
+ sigrok-cli --driver=ols:conn=/dev/ttyACM0 -d samplerate=10mhz \
+ -samples=24576 -p 0=LOAD,1=DATA,2=CLK,3=BLANK -o max6921_data_10mhz.sr
+
projects / sigrok-dumps.git / commitdiff