30/50GHz Sampling Oscilloscope DCA6201-Semight Instruments

Features

Efficient measurement
Support simultaneous measurement of all channels and parallel measurement
Multiple measurement functions
Meet the normal NRZ and PAM4 eye diagram test parameters;
Automatic test
The remote command control mode is convenient and fast
Ensure accurate performance
High performance ensures test consistency

Features and Benefits

Integrated multi-port design
Small size(about 1/4 of the traditional sampling oscilloscope), saves space;
4 optical ports optional, which can test 4 optical eye diagrams at the same time;
4 differential electrical ports optional, 30G BW, support AOC and other module electrical port parameter tests;
Calibrated reference receiver
Comply with the industry frequency response tolerance, compared with the traditional industry standard sampling oscilloscope, the eye diagram shape consistency is very high;
As shown in the figure, the NRZ eye diagram
Calibrated reference receiver
Comply with the industry frequency response tolerance, compared with the traditional industry standard sampling oscilloscope, the eye diagram shape consistency is very high;
As shown in the figure is the PAM4 eye diagram

Optical Channel Specifications

Items	Specifications
	DCA6201-B30	DCA6201-B50
Optical channel bandwidth^[1]	30 GHz	50 GHz（IRC Option）
Fiber input	50/125μm FC/UPC (single-mode/multi-mode）
Wavelength range	800 ~ 1650 nm
Factory Calibrated Wavelengths ^[2]	850/1310/1550 nm ±10 nm
Support various data rate according to multi standards （Filters）	25.78Gbps (25/50/100 Gb Ethernet) 26.56 Gbps (400 Gb Ethernet) 27.95 Gbps (OTU4) 28.05 Gbps (32×Fiber Channel) 26.5625 GBaud PAM4 28.9 GBaud PAM4	53.125 GBaud PAM4 53.125 GBaud NRZ 49.7664 GBaud NRZ (50G PON) 24.8832 GBaud NRZ (50G PON) 12.4416 GBaud NRZ (50G PON)
ADC resolution	14 Bit
Measurement consistency^[3]	Average Power：±0.1 dB Extinction Ratio：±0.3 dB Mask Margin：±5% TDECQ(PAM4)：±0.5 dB
Max Input^[4] (Non-Destruction, Peak)	5 mW (+7 dBm)
Sensitivity and Linear range ^[5][6]	NRZ： 0 ~ -8 dBm PAM4：-1 ~ -7 dBm
Monitor Average Power Range	-20 dBm ~ +1 dBm
Average power monitor accuracy[7]	Single-mode ±5% ±200 nW ±connector uncertainty Multimode (characteristic) ± 10% ± 200 nW ± connector uncertainty
Input return loss (FC/UPC)	＞23 dB@850nm ＞30 dB@1310nm

[1] Optical channel bandwidth define by optical power reduced by 3dB which is -3dBo bandwidth（-3dBo=-6dBe）。

[2] Here the ±10 nm is the source optical wave length error

[3] This parameter is not used to describe instrument specification. It means the difference between test with ideal signal and the theoretical value. In real test scenario, the test consistency related to signal quality.

[4] This value is from damage test by increasing the input optical power step by step (0.1dBm step). In real applications, due to the instability of the optical source, please be aware that not to keep the input optical signal power at+7dBm or above, IT MAY CAUSE THE INSTRUMENTS PERFORMANCE REDUCTION OR EVEN DAMAGE.

[5] Sensitivity is not a part of instrument specifications. It is calculated from characteristic value of noise. It means the power value when influenced only by oscilloscope‘s noise floor, test with ideal eye diagram mask and the mask margin to be close to 0%. The minimal power value is also related to the quality of signal under test in real scenario.

[6] It has difference with different signal（NRZ/PAM4，single-mode/multi-mode）.

[7] Due to variations in mode-filling conditions, the measured power in multimode fiber will vary more than the measured power in single-mode fiber. For users needing the most accurate power measurements, use an optical power meter for multimode power measurements.

Electrical Specifications

Items	Specifications
Electrical channel bandwidth^[1]	33 GHz
Input signal type	AC-coupled
Input connector	1.85 mm female（Differential）
Dynamic range of input	500 mVpp
DC accuracy	3 mV@typ.
RMS Noise	1.5 mV@typ.
ADC resolution	14 Bit
Max Input Amplitude	±1 V
Impedance	50±10% Ω

[1]It’s the electrical channel -3dBe bandwidth. It is measured by frequency sweeping after removal of test system.（±uncertainty）

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DCA6201 TCP远程控制使用说明

V1.2

2022-07-20

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DCA上位机简要使用说明

V0.7

2022-07-20

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