Difference between revisions of "Hantek 4032L"
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(Added HW features support status) |
Uwe Hermann (talk | contribs) m |
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+ Internal clocking (timing mode) | + Internal clocking (timing mode) | ||
+ External clocking (state mode) with edge (rising/falling/both) and clock channel (ACLK/BCLK) selection | + External clocking (state mode) with edge (rising/falling/both) and clock channel (ACLK/BCLK) selection | ||
+ Logic voltage threshold selection (independent for Axx and Bxx channel groups, possible to analyze dual | + Logic voltage threshold selection (independent for Axx and Bxx channel groups, possible to analyze dual standard circuits) | ||
+ Unconditional trigger | + Unconditional trigger | ||
+ Trigger on signal edge (rising/falling/any) | + Trigger on signal edge (rising/falling/any) |
Latest revision as of 23:18, 31 July 2019
Status | supported |
---|---|
Source code | hantek-4032l |
Channels | 32 |
Samplerate | 400MHz |
Samplerate (state) | ? |
Triggers | edge, bus value range, pattern, pattern duration, combined |
Min/max voltage | -6V — +60V input, -6V — +6V threshold |
Memory | 2Gbit (64M samples x 32) |
Compression | — |
Website | hantek.com |
The Hantek 4032L is a USB-based, 32-channel logic analyzer with up to 400MHz sampling rate and 2Gbit DDR2 memory.
See Hantek 4032L/Info for more details (such as lsusb -v output) on the device.
Hardware
- Xilinx Spartan-6 XC6SLX16 CSG324 DIV1225 (FPGA, 14579 logic cells, 2 DDR1/2/3 memory controllers, BGA324)
- Cypress FX2LP CY7C68013A-100AXC (USB 2.0 HS controller, TQFP100)
- 2x Micron MT47H64M16HR-25E:H (1Gbit DDR2 SDRAM, BGA)
- TI TPS51116 (DDR memory power controller)
- Unknown I2C EEPROM (marking removed, contains FX2 firmware)
- MXIC MX25L4005 (4Mbit SPI flash, marking removed, contains FPGA bitstream)
- DAC122S085CIMM (marking removed, input Vref generators)
Photos
Teardown 1:
Teardown 2:
Protocol
- Vendor request is used to reset the engine and flush the buffers
- Endpoint 2 is used for host-to-device command/parameters transfers
- Endpoint 6 is used for device-to-host status/data transfers
X denotes "any value" in the following description
Vendor requests
- bRequest=0xB3, wValue=X, wIndex=X, wLength=0x0A, data={ 0x0F, 0x03, 0x03, 0x03, X, X, X, X, X, X } - restart the engine (reset FPGA, reset FIFOs)
- bRequest=0xD0, wValue=X, wIndex=X, wLength=0x00 - disable communication (set FIFO reset), not used
- bRequest=0xD1, wValue=X, wIndex=X, wLength=0x00 - enable communication (clear FIFO reset), not used
Command/Parameters packet
struct CmdParamsPacket byte Magic[2]={ 0x7F, 0x01 } byte SampleRate 0x22 - 400MS/s 0x23 - 320MS/s 0x20 - 200MS/s 0x21 - 160MS/s 0x00 - 100MS/s 0x08 - 80MS/s 0x01 - 50MS/s 0x09 - 40MS/s 0x02 - 25MS/s 0x0A - 20MS/s 0x03 - 12.5MS/s 0x0B - 10MS/s 0x04 - 6.25MS/s 0x0C - 5MS/s 0x10 - 4MS/s 0x05 - 3.125MS/s 0x0D - 2.5MS/s 0x11 - 2MS/s 0x06 - 1.5625MS/s 0x0E - 1.25MS/s 0x12 - 1MS/s 0x07 - 781.25KS/s 0x0F - 625KS/s 0x13 - 500KS/s 0x14 - 250KS/s 0x15 - 125KS/s 0x16 - 62.5KS/s 0x17 - 31.25KS/s 0x18 - 16KS/s 0x19 - 8KS/s 0x1A - 4KS/s 0x1B - 2KS/s 0x1C - 1KS/s 0x24 - posedge CLKA 0x25 - posedge CLKB 0x28 - negedge CLKA 0x29 - negedge CLKB 0x26 - DDR CLKA 0x27 - DDR CLKB byte TrigFlags bit 0 - enable trigger 1 (main) bit 1 - enable trigger 2 (advanced) bit 2 - trigger logic, 0 - T1 or T2, 1 - T1 and T2 bit 3 - unknown USBXI sync trigger config, default: 1 bit 4 - unknown USBXI sync trigger config, default: 0 bit 7 - unknown USBXI "check mode", default: 0 word PwmA - channel A Vref PWM value, pseudocode: -6V < ThresholdVoltage < +6V Vref = 1.8-ThresholdVoltage if Vref>10.0 Vref = 10.0 if Vref<-5.0 Vref = -5.0 pwm = ToInt((Vref + 5.0) / 15.0 * 4096.0) if pwm>4095 pwm = 4095 word PwmB - channel B Vref PWM value byte UsbxiData - unknown USBXI parameter, default: 00 byte unused: 00 dword SampleDepth - sample depth in bits per channel, 2k-64M, must be multiple of 512 dword PretriggerDepth - pretrigger buffer depth in bits, must be < SampleDepth struct Trig Trig1 - trigger 1 config, see below struct Trig Trig2 - trigger 2 config, see below byte Command[2] - command, see Commands and responses below
struct Trig dword Flags - trigger types selection: bit 4:0 - edge trigger signal, 0-31 -> A0-B15 bit 6:5 - edge to trigger on: 00 - rise 01 - fall 10 - rise or fall 11 - edge trigger disabled bit 7 - unused bit 9:8 - data range trigger type: 00 - data=RangeMax trigger 01 - data=RangeMin or data=RangeMax trigger 10 - data<RangeMin or data>RangeMax trigger 11 - RangeMin<data<RangeMax trigger bit 11:10 - time range trigger type: 00 - time=TimeMax trigger 01 - time=TimeMin or time=TimeMax trigger 10 - time<TimeMin or time>TimeMax trigger 11 - TimeMin<time<TimeMax trigger bit 12 - enable data range trigger (see bit 9:8) bit 13 - enable time trigger (see bit 11:10) bit 15:14 - unused bit 17:16 - combined trigger data selection (data=EquData and data_sel matches other criteria like time, range, edge): 00 - data_sel is next data (next to matched with EquData) 01 - data_sel is current data 10 - data_sel is previous data 11 - undefined bit 18 - enable combined trigger (see bit 17:16) bit 31:19 - unused dword RangeMin - min value for data range trigger (see Flags[9:8]), must be masked with RangeMask (see Masking below) dword RangeMax - max value for data range trigger (see Flags[9:8]), must be masked with RangeMask dword TimeMin - min value for time trigger (see Flags[11:10]) dword TimeMax - max value for time trigger (see Flags[11:10]) dword RangeMask - mask value for data range trigger dword EquMask - mask value for combined trigger dword EquData - data value for combined trigger (see Flags[17:16]), must be masked with EquMask
Masking: Some trigger types (data range, combined "pattern and condition") operate on a "bus" value of several signals selected with a mask. Active bits are combined to a single value WITHOUT GAPS: mask=01000011, value=11010001 -> masked_value=00000101 (bits 6,1,0 are combined and zero-extended)
Commands and responses
{ 0x1A, 0x2B } - configure and start capture, all parameters are used Response: none
{ 0x3A, 0x4B } - get status, parameters are defaults Response: dword Magic=0x2B1A037F - drop rx data until this) dword CurrentDataValue - A0-B15 current state snapshot dword CaptureStatus - 0-not finished, 1-?, 2-done, data is ready dword UsbxiData - unknown USBXI data dword DevVersion - FPGA firmware version dword DummyData[251] - pad to 1024 bytes
{ 0x5A, 0x6B } - get captured data, parameters are defaults Response: dword Magic=0x2B1A027F - drop rx data until this dword CaptureData[SampleDepth] - capture data dword EndMarker=0x4D3C037F - drop rx data after this till end of 512 byte packet
{ 0x9A, 0xAB } - unknown USBXI "eraser data" cmd, parameters are defaults Response: none
{ 0xBA, 0xCB } - unknown USBXI "set sync trig output" cmd, parameters are defaults Response: none
Acquisition session flow
- Send restart vendor request (0xB3)
- Send { 0x1A, 0x2B } type packet to configure and start capture
- Poll with { 0x3A, 0x4B } until CaptureStatus=2 (optionally blink bus indicators according to CurrentDataValue during poll)
- Get capture data with { 0x5A, 0x6B }
Hardware features support status
+ Buffered mode acquisition + Sample depth selection + Pretrigger depth selection + Internal clocking (timing mode) + External clocking (state mode) with edge (rising/falling/both) and clock channel (ACLK/BCLK) selection + Logic voltage threshold selection (independent for Axx and Bxx channel groups, possible to analyze dual standard circuits) + Unconditional trigger + Trigger on signal edge (rising/falling/any) + Trigger on bus pattern match - Trigger on bus value within/out of range - Trigger on bus pattern condition (match/within/out of range) repeating for N consecutive samples where N is equal/within range/out of range - Trigger on bus pattern condition at specific signal edge - Trigger on any of the above conditions combined with pattern match on the previous/current/next sample - Use two trigger units in AND/OR combination - External trigger input/output signals