Difference between revisions of "Link Instruments MSO-19"

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* PATGEN_CFG (8): Configures the pattern generator.
* PATGEN_CFG (8): Configures the pattern generator.
** (1 << 1): Enter pattern write mode.
** (1 << 1): Enter pattern write mode.
** other bits also used. Zero when disabled.. ??
** (1 << 3 | 1 << 2):
* PATGEN_ARM? (9): writen 0x1 and then 0x0 in several ocasions. Investigate.
*** 11 : Manual start (pulse in register 9 (PATGEN_TRIG?)
*** 10 : Start on MSO trigger
*** 01 : Start on MSO "Go" (MSO trigger arm)
*** 00 : Disabled
* PATGEN_TRIG? (9): writen 0x1 and then 0x0 in several ocasions, seems to act as a trigger.
* PATGEN_WORD (10): In pattern write mode, it takes the word for the current sample. Not sure for other modes...
* PATGEN_WORD (10): In pattern write mode, it takes the word for the current sample. Not sure for other modes...
* TRIGGER_WIDTH (11): ?
* TRIGGER_WIDTH (11): ?

Revision as of 15:25, 13 January 2012

File:MSO-19.JPG
Link Instruments MSO-19

The Link Instruments MSO-19 is a 2GSa/s oscilloscope, 200MSa/s logic analyzer, 100MSa/s pattern generator and a TDR. It is also extremely portable and is only $249 (including probe, clips, wires and software).

See Link Instruments MSO-19/Info for more details (such as lsusb -vvv output) about the device.

Hardware

Original software

Link Instruments ships the product with its FrontPanelTM Oscilloscope software. Software is for Windows only. Written in .NET (C#), without any kind of obfuscation, which makes it a real breeze to reverse engineer.

USB protocol

It's just serial-over-USB, supported by the Linux kernel through the cp210x driver, though as of Kernel 2.6.37 it needs to be patched to recognize the Link Instruments Vendor/Product ID (3195:f190).

iSerial was exploited by Link Instruments to store hardware type, hardware revision, calibration quirks and the actual serial number.

  • for an iSerial of 4294333650260000000 we have:
    • 42943 336 502 6 0 000000
      • vbit = 42943 / 10000
      • dacoffset = 336
      • offsetrange = 502
      • hwmodel = 6
      • hwrev = 0
      • serial number = 000000

Serial protocol

  • Control message
    • Fixed header: 0x40, 0x4c, 0x44, 0x53, 0x7e
    • Variable size payload, 16bit aligned
      • Looks like each 16bits of payload are a register write operation
      • register writes are 4bits for addr, 8 bits for value, 2 unused bits and 2 bits im not sure what they are for :)
        • The simplest explanation for the unused bits is that the device bus width is 7 bits (being a CPLD that is very acceptable).
        • The 2 special bits seem to be synchronization bits. 0x7e violates the conversion (high byte), and that may be used to reset the CPLD parser at the end of the packet.
      • .?12 AAAA .?34 5678
      • Conversion is: ((v & 0x3f) | ((v & 0xc0) << 6) | ((a & 0xf) << 8) | (((v ^ 0x20) & 0x20) << 1) | (((v ^ 0x80) & 0x80) << 7))
      • Byte order is big endian
    • Fixed footer: 0x7e

Registers description

There is no way to read from registers, only write is possible.

The purpose of registers 0 to 8 seems to depend on the value of register 15.

Registers for R15 == 0
  • Read Sample buffer (1): Write 0 to this register to read the samples buffer.
  • Read Trigger status (2): Write 0 to this register to read the trigger status.
  • TRIGGER_CONFIG_L (3):
    • lsbyte of the threshold value.
  • TRIGGER_CONFIG_H (4):
    • bits [1:0] hold the msbits of the threshold value
    • (1 << 2): Trigger on falling edge
  • LA_TRIGGER(5):
  • LA_TRIGGER_MASK(6):
  • SCOPE_TRIGGER_THRESHOLD(7-8):
  • CLKRATE(9-10):
  • DAC(12-13):
Registers for R15 == 1

This mode seems to be used to configure the pattern generator.

  • UNKNOWN (0):
  • UNKNOWN (1):
  • UNKNOWN (2):
  • UNKNOWN (3):
  • UNKNOWN (4):
  • UNKNOWN (5):
  • UNKNOWN (6):
  • UNKNOWN (7):
  • PATGEN_CFG (8): Configures the pattern generator.
    • (1 << 1): Enter pattern write mode.
    • (1 << 3 | 1 << 2):
      • 11 : Manual start (pulse in register 9 (PATGEN_TRIG?)
      • 10 : Start on MSO trigger
      • 01 : Start on MSO "Go" (MSO trigger arm)
      • 00 : Disabled
  • PATGEN_TRIG? (9): writen 0x1 and then 0x0 in several ocasions, seems to act as a trigger.
  • PATGEN_WORD (10): In pattern write mode, it takes the word for the current sample. Not sure for other modes...
  • TRIGGER_WIDTH (11): ?
  • PATGEN_LOOPS (12): Stores the number of loops for the pattern generator
  • PATTERN_MASK (13): Stores the output bit mask (1 for enabled, 0 for disabled)
Registers for R15 == 2

This mode is used to set the i2c or spi triggers. NOTE: the difference between i2c and spi capture seems to be the TRIGGER_CFG_H bits (see R15 = 0)

  • TRIG_WORD0 (0): Holds the first word to be matched.
    • If matching less than 4 words, this register is set to 0 (match bus idle) and the mask is set to 0xff. See below.
  • TRIG_WORD1 (1): Holds the second word to be matched. Same as above.
  • TRIG_WORD2 (2): Holds the third word to be matched. Same as above.
  • TRIG_WORD2 (3): Holds the fourth word to be matched. Same as above.
  • TRIG_MASK0 (4): Holds the mask for the first word.
    • If matching less than 4 words, this register is set to 0xff. This forces a match on a "bus idle" state.
    • Could forcing the match to bus idle cause trouble whith packets too close together??
  • TRIG_MASK1 (5): Holds the mask for the 2nd word.
  • TRIG_MASK2 (6): Holds the mask for the 3d word.
  • TRIG_MASK3 (7): Holds the mask for the 4th word.
  • TRIG_SPI_MODE (8): Holds the SPI mode for triggering (valid modes 0, 1, 2, 3). Is set to 0 for I2C (not sure if mandatory)
  • CLKRATE(9-10): (not used?)
  • TRIGGER_WIDTH(11): (not used?)
  • DAC(12-13): (not used?)


Registers which don't seem to change purpose (so far)
  • CONTROL (14):
    • (1 << 0): Reset SFM
    • (1 << 4): Reset ADC (?)
    • (1 << 6): Reset ADC (?)
    • (1 << 7): Led on/off
  • SLOWMODE(15): This should be renamed BANK perhaps!