Xilinx Zynq Platform, model: Xilinx Zynq
SMP: Total of 2 processors activated.
Boot output:Code: [Select]...
CPU: ARMv7 Processor [413fc090] revision 0 (ARMv7), cr=18c5387d
...
l2x0: 8 ways, CACHE_ID 0x410000c8, AUX_CTRL 0x72360000, Cache size: 512 kB
...
Brought up 2 CPUs
SMP: Total of 2 processors activated.
...
Calibrating delay loop... 1731.78 BogoMIPS (lpj=8658944)
...
Boot output:Code: [Select]...
rcS Complete
[1B][1;31m<root@rigol>[1B][0mrpcbind: cannot create socket for udp6
...
Date Sheet page 22:
"Note[2]: 1mV/div and 2mV/div are a magnification of 4mV/div setting..."
Where have we seen that before?
So far I haven't really gotten time for doing so... but once I did I will let you know what they did!
21-06-2018 10:18 81.133.568 app.img
21-06-2018 10:18 4.736 fw4linux.sh
21-06-2018 10:18 4.784 fw4uboot.sh
19-09-2017 07:15 71.920 logo.hex
21-06-2018 10:17 14.210.704 system.img
13-06-2018 14:10 3.510.668 zynq.bit
00000000 - FFFFFFFF Padding
00000004 - FFFFFFFF Padding
00000008 - FFFFFFFF Padding
0000000C - FFFFFFFF Padding
00000010 - FFFFFFFF Padding
00000014 - FFFFFFFF Padding
00000018 - FFFFFFFF Padding
0000001C - FFFFFFFF Padding
00000020 - 000000BB Bus width auto detect, word 1
00000024 - 11220044 Bus width auto detect, word 2
00000028 - FFFFFFFF Padding
0000002C - FFFFFFFF Padding
00000030 - AA995566 Sync Word (BPI/SPI Mode)
00000034 - 20000000 T1 - 00000000 NOP (1x)
00000038 - 30022001 00000000 T1 W 00000001 TIMER
00000040 - 30020001 00000000 T1 W 00000001 WBSTAR
00000048 - 30008001 00000000 T1 W 00000001 CMD NULL - No Operation
00000050 - 20000000 T1 - 00000000 NOP (1x)
00000054 - 30008001 00000007 T1 W 00000001 CMD RCRC - Reset CRC
0000005C - 20000000 T1 - 00000000 NOP (2x)
00000064 - 30026001 00000000 T1 W 00000001 FALL_EDGE
0000006C - 30012001 02003FE5 T1 W 00000001 COR0
00000074 - 3001C001 00000000 T1 W 00000001 COR1
0000007C - 30018001 0373B093 T1 W 00000001 IDCODE
00000084 - 30008001 00000009 T1 W 00000001 CMD SWITCH - Switch CCLK Frequency
0000008C - 20000000 T1 - 00000000 NOP (1x)
00000090 - 3000C001 00000401 T1 W 00000001 MASK
00000098 - 3000A001 00000501 T1 W 00000001 CTL0
000000A0 - 3000C001 00000000 T1 W 00000001 MASK
000000A8 - 30030001 00000000 T1 W 00000001 CTL1
000000B0 - 20000000 T1 - 00000000 NOP (8x)
000000D0 - 30002001 00000000 T1 W 00000001 FAR
000000D8 - 30008001 00000001 T1 W 00000001 CMD WCFG - Write Config Data
000000E0 - 20000000 T1 - 00000000 NOP (1x)
000000E4 - 30004000 T1 W 00000000 FDRI
000000E8 - 500D621C T2 W 000D621C
00358964 - 20000000 T1 - 00000000 NOP (2x)
0035896C - 30008001 0000000A T1 W 00000001 CMD GRESTORE - Pulse GRESTORE Signal
00358974 - 20000000 T1 - 00000000 NOP (1x)
00358978 - 30008001 00000003 T1 W 00000001 CMD DGHIGH/LFRM - Last Frame Write
00358980 - 20000000 T1 - 00000000 NOP (100x)
00358B10 - 30008001 00000005 T1 W 00000001 CMD START - Begin Startup Sequence
00358B18 - 20000000 T1 - 00000000 NOP (1x)
00358B1C - 30002001 03BE0000 T1 W 00000001 FAR
00358B24 - 3000C001 00000501 T1 W 00000001 MASK
00358B2C - 3000A001 00000501 T1 W 00000001 CTL0
00358B34 - 30000001 E3AD7EA5 T1 W 00000001 CRC
00358B3C - 20000000 T1 - 00000000 NOP (2x)
00358B44 - 30008001 0000000D T1 W 00000001 CMD DESYNC - Reset DALIGN Signal
00358B4C - 20000000 T1 - 00000000 NOP (400x)
00000000 - 0009 (0x0009) File Header Length
00000002 - 0FF00FF0 (0x0FF00FF0) File Header Long 1
00000006 - 0FF00FF0 (0x0FF00FF0) File Header Long 2
0000000A - 00 (0x00) File Header Zero
0000000B - 0001 (0x0001) Key Length
0000000D - 61 002B (key a) Design Name: K160M_TOP;UserID=0XFFFFFFFF;Version=2015.2
0000003B - 62 000D (key b) Part Name: 7k160tffg676
0000004B - 63 000B (key c) Generation Date: 2018/06/12
00000059 - 64 0009 (key d) Generation Time: 22:41:08
00000065 - 65 00661EDC (key e) Bitstream Length: 00661EDC [0000006A-00661F45]
-------------- BITSTREAM ------------------------
0000006A - FFFFFFFF Padding
0000006E - FFFFFFFF Padding
00000072 - FFFFFFFF Padding
00000076 - FFFFFFFF Padding
0000007A - FFFFFFFF Padding
0000007E - FFFFFFFF Padding
00000082 - FFFFFFFF Padding
00000086 - FFFFFFFF Padding
0000008A - 000000BB Bus width auto detect, word 1
0000008E - 11220044 Bus width auto detect, word 2
00000092 - FFFFFFFF Padding
00000096 - FFFFFFFF Padding
0000009A - AA995566 Sync Word (BPI/SPI Mode)
0000009E - 20000000 T1 - 00000000 NOP (1x)
000000A2 - 30022001 00000000 T1 W 00000001 TIMER
000000AA - 30020001 00000000 T1 W 00000001 WBSTAR
000000B2 - 30008001 00000000 T1 W 00000001 CMD NULL - No Operation
000000BA - 20000000 T1 - 00000000 NOP (1x)
000000BE - 30008001 00000007 T1 W 00000001 CMD RCRC - Reset CRC
000000C6 - 20000000 T1 - 00000000 NOP (2x)
000000CE - 30026001 00000000 T1 W 00000001 FALL_EDGE
000000D6 - 30012001 020035E5 T1 W 00000001 COR0
000000DE - 3001C001 00000000 T1 W 00000001 COR1
000000E6 - 30018001 0364C093 T1 W 00000001 IDCODE
000000EE - 30008001 00000009 T1 W 00000001 CMD SWITCH - Switch CCLK Frequency
000000F6 - 20000000 T1 - 00000000 NOP (1x)
000000FA - 3000C001 00000401 T1 W 00000001 MASK
00000102 - 3000A001 00000501 T1 W 00000001 CTL0
0000010A - 3000C001 00000000 T1 W 00000001 MASK
00000112 - 30030001 00000000 T1 W 00000001 CTL1
0000011A - 20000000 T1 - 00000000 NOP (8x)
0000013A - 30002001 00000000 T1 W 00000001 FAR
00000142 - 30008001 00000001 T1 W 00000001 CMD WCFG - Write Config Data
0000014A - 20000000 T1 - 00000000 NOP (1x)
0000014E - 30004000 T1 W 00000000 FDRI
00000152 - 50198570 T2 W 00198570
0066171E - 20000000 T1 - 00000000 NOP (2x)
00661726 - 30008001 0000000A T1 W 00000001 CMD GRESTORE - Pulse GRESTORE Signal
0066172E - 20000000 T1 - 00000000 NOP (1x)
00661732 - 30008001 00000003 T1 W 00000001 CMD DGHIGH/LFRM - Last Frame Write
0066173A - 20000000 T1 - 00000000 NOP (100x)
006618CA - 30008001 00000005 T1 W 00000001 CMD START - Begin Startup Sequence
006618D2 - 20000000 T1 - 00000000 NOP (1x)
006618D6 - 30002001 03BE0000 T1 W 00000001 FAR
006618DE - 3000C001 00000501 T1 W 00000001 MASK
006618E6 - 3000A001 00000501 T1 W 00000001 CTL0
006618EE - 30000001 E3AD7EA5 T1 W 00000001 CRC
006618F6 - 20000000 T1 - 00000000 NOP (2x)
006618FE - 30008001 0000000D T1 W 00000001 CMD DESYNC - Reset DALIGN Signal
00661906 - 20000000 T1 - 00000000 NOP (400x)
BW1T2 - BANDWIDTH UPGRADE (100MHZ TO 200MHZ)
BW1T3 - BANDWIDTH UPGRADE (100MHZ TO 350MHZ)
BW1T5 - BANDWIDTH UPGRADE (100MHZ TO 500MHZ)
BW2T3 - BANDWIDTH UPGRADE (200MHZ TO 350MHZ)
BW2T5 - BANDWIDTH UPGRADE (200MHZ TO 500MHZ)
BW3T5 - BANDWIDTH UPGRADE (350MHZ TO 500MHZ)
MSO - ENABLE 16 DIGITAL CHANNELS
2RL - MEMORY DEPTH UPGRADE (250MPTS MAX.)
5RL - MEMORY DEPTH UPGRADE (500MPTS MAX.)
BND - FUNCTION & APPLICATION BUNDLE
COMP - RS232/UART BUS TRIGGER & ANALYSIS
EMBD - I2C/SPI BUS TRIGGER & ANALYSIS
AUTO - CAN/LIN BUS TRIGGER & ANALYSIS
FLEX - FLEXRAY BUS TRIGGER & ANALYSIS
AUDIO - I2S BUS TRIGGER & ANALYSIS
SENSOR - SENT SENSOR TRIGGER & ANALYSIS
AERO - MIL-STD-1553 BUS TRIGGER & ANALYSIS
ARINC - ARINC-429 SERIAL TRIGGER & ANALYSIS
AWG (DG) - DUAL CHANNEL WAVEGEN 25 MHZ
JITTER - JITTER & REALTIME EYE DIAGRAM ANALYSIS
MASK - MASK TEST
PWR - INTEGRATED POWER ANALYSIS
DVM - INTEGRATED DIGITAL VOLTMETER
CTR - INTEGRATED 10 DIGIT COUNTER
EDK - EDUCATION AND TRAINING OPTION
In case you guys want to hear any fedback to certain features of the scope or have any questions I could answer, I am happy to do so!
I was about selecting a new scope to analyze BLDC motor drivers when the 700 Series was released. Has anyone yet concluded how the MSO7000 compares to the RTM3000 in real live scenarios? i.e. has anyone used both?
Hi
I was about selecting a new scope to analyze BLDC motor drivers when the 700 Series was released. Has anyone yet concluded how the MSO7000 compares to the RTM3000 in real live scenarios? i.e. has anyone used both?
More specifically I'm looking into MSO7014 vs RTM3004
Thanks for sharing.
Linus
Hi
I was about selecting a new scope to analyze BLDC motor drivers when the 700 Series was released. Has anyone yet concluded how the MSO7000 compares to the RTM3000 in real live scenarios? i.e. has anyone used both?
More specifically I'm looking into MSO7014 vs RTM3004
Hi
I was about selecting a new scope to analyze BLDC motor drivers when the 700 Series was released. Has anyone yet concluded how the MSO7000 compares to the RTM3000 in real live scenarios? i.e. has anyone used both?
More specifically I'm looking into MSO7014 vs RTM3004
Thanks for sharing.
Linushere is a nice pic for you, I took it yesterday at the office
Thanks, Simone
So, what is your first impression?
Linus