sigrok-cli -d 0:samplerate=25mhz --samples 8388608 \
-p '1=CS#,2=MISO,3=SCLK,4=MOSI,5=WP#,6=HOLD#' \
--wait-trigger --triggers 3=1 \
sigrok-cli -d 0:samplerate=25mhz --samples 8388608 \
-p '1=CS#,2=MISO,3=SCLK,4=MOSI,5=WP#,6=HOLD#' \
--wait-trigger --triggers 3=1 \
The capturing starts when the SCLK signal is high for the first time
(it's low per default). We capture as many samples as fit into the 8MByte
The capturing starts when the SCLK signal is high for the first time
(it's low per default). We capture as many samples as fit into the 8MByte
sigrok-cli -d 0:samplerate=25mhz --samples 8388608 \
-p '1=CS#,2=MISO,3=SCLK,4=MOSI,5=WP#,6=HOLD#' \
sigrok-cli -d 0:samplerate=25mhz --samples 8388608 \
-p '1=CS#,2=MISO,3=SCLK,4=MOSI,5=WP#,6=HOLD#' \
The capture is only partial, it contains a small part of the write process
(it does not contain the chip identification, chip erase, etc. which comes
The capture is only partial, it contains a small part of the write process
(it does not contain the chip identification, chip erase, etc. which comes
sigrok-cli -d 0:samplerate=25mhz --samples 8388608 \
-p '1=CS#,2=MISO,3=SCLK,4=MOSI,5=WP#,6=HOLD#' \
sigrok-cli -d 0:samplerate=25mhz --samples 8388608 \
-p '1=CS#,2=MISO,3=SCLK,4=MOSI,5=WP#,6=HOLD#' \
The capture only contains a small part of the read procedure. The data in
the chip consists of consecutive "HelloWorld" ASCII strings.
The capture only contains a small part of the read procedure. The data in
the chip consists of consecutive "HelloWorld" ASCII strings.
sigrok-cli -d 0:samplerate=25mhz --samples 8388608 \
-p '1=CS#,2=MISO,3=SCLK,4=MOSI,5=WP#,6=HOLD#' \
sigrok-cli -d 0:samplerate=25mhz --samples 8388608 \
-p '1=CS#,2=MISO,3=SCLK,4=MOSI,5=WP#,6=HOLD#' \