Difference between revisions of "UNI-T UT612"
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* '''LCR meter chipset''': [http://www.cyrustek.com.tw/product-1-LCR%20Meter%20Series.htm Cyrustek ES51919] ([http://www.cyrustek.com.tw/spec/ES51920.pdf datasheet]) | * '''LCR meter chipset''': [http://www.cyrustek.com.tw/product-1-LCR%20Meter%20Series.htm Cyrustek ES51919] ([http://www.cyrustek.com.tw/spec/ES51920.pdf datasheet]) | ||
* '''HID USB to UART bridge''': [http://www.silabs.com/products/interface/usb-bridges/classic-usb-bridges/pages/usb-to-uart-bridge.aspx Silicon Labs CP2110] ([https://www.silabs.com/Support%20Documents/TechnicalDocs/CP2110.pdf datasheet]) | * '''HID USB to UART bridge''': [http://www.silabs.com/products/interface/usb-bridges/classic-usb-bridges/pages/usb-to-uart-bridge.aspx Silicon Labs CP2110] ([https://www.silabs.com/Support%20Documents/TechnicalDocs/CP2110.pdf datasheet]) | ||
The ES51919/51920 chipset is found in other LCR meters, too. The chipset communicates via UART (TX only). | |||
The CP2110 USB serial-over-HID chip resides on a separate breakout board, and is connected to the LCR "mainboard" via a three wire flying cable. Red(!) is GND, green is the meter's TX signal, yellow is probably Vcc from USB, RX is not connected. | |||
== Photos == | == Photos == | ||
Revision as of 23:23, 26 May 2017
The UNI-T UT612 is a 20000 counts, dual-display, LCR meter with USB/HID connectivity.
See UNI-T UT612/Info for more details (such as lsusb -v output) about the device.
Hardware
- LCR meter chipset: Cyrustek ES51919 (datasheet)
- HID USB to UART bridge: Silicon Labs CP2110 (datasheet)
The ES51919/51920 chipset is found in other LCR meters, too. The chipset communicates via UART (TX only).
The CP2110 USB serial-over-HID chip resides on a separate breakout board, and is connected to the LCR "mainboard" via a three wire flying cable. Red(!) is GND, green is the meter's TX signal, yellow is probably Vcc from USB, RX is not connected.
Photos
PCB, bird's view
USB breakout, top
USB breakout, bottom
Protocol
The protocol for the ES51919 was reverse engineered as part of the DER-EE 5000 driver that uses the same chipset. Below is the excerpt from the source code.
Public official documentation does not contain the protocol description, so this is all based on reverse engineering.
Packet structure (17 bytes):
0x00: header1 ?? (0x00)
0x01: header2 ?? (0x0d)
0x02: flags
bit 0 = hold enabled
bit 1 = reference shown (in delta mode)
bit 2 = delta mode
bit 3 = calibration mode
bit 4 = sorting mode
bit 5 = LCR mode
bit 6 = auto mode
bit 7 = parallel measurement (vs. serial)
0x03: config
bit 0-4 = ??? (0x10)
bit 5-7 = test frequency
0 = 100 Hz
1 = 120 Hz
2 = 1 kHz
3 = 10 kHz
4 = 100 kHz
5 = 0 Hz (DC)
0x04: tolerance (sorting mode)
0 = not set
3 = +-0.25%
4 = +-0.5%
5 = +-1%
6 = +-2%
7 = +-5%
8 = +-10%
9 = +-20%
10 = -20+80%
0x05-0x09: primary measurement
0x05: measured quantity
1 = inductance
2 = capacitance
3 = resistance
4 = DC resistance
0x06: measurement MSB (0x4e20 = 20000 = outside limits)
0x07: measurement LSB
0x08: measurement info
bit 0-2 = decimal point multiplier (10^-val)
bit 3-7 = unit
0 = no unit
1 = Ohm
2 = kOhm
3 = MOhm
5 = uH
6 = mH
7 = H
8 = kH
9 = pF
10 = nF
11 = uF
12 = mF
13 = %
14 = degree
0x09: measurement status
bit 0-3 = status
0 = normal (measurement shown)
1 = blank (nothing shown)
2 = lines ("----")
3 = outside limits ("OL")
7 = pass ("PASS")
8 = fail ("FAIL")
9 = open ("OPEn")
10 = shorted ("Srt")
bit 4-6 = ??? (maybe part of same field with 0-3)
bit 7 = ??? (some independent flag)
0x0a-0x0e: secondary measurement
0x0a: measured quantity
0 = none
1 = dissipation factor
2 = quality factor
3 = parallel AC resistance / ESR
4 = phase angle
0x0b-0x0e: like primary measurement
0x0f: footer1 (0x0d)
0x10: footer2 (0x0a)
Resources
- Official UNI-T UT612 related documents (manual, software, ...)
- eevblog.com: Review and tear-down of UNI-T UT612 LCR meter