YOKOGAWA 横河 高速数据采集仪 SL2000

SL2000高速数据采集单元是一种用于嵌入式系统的隔离示波器/高速数据采集器。

可以使用与DL950和DL350相同的插件模块。

只需一个SL2000单元，您就可以同时记录从低电压到1000V的隔离模拟信号、数字信号、编码器信号、来自车载网络的CAN/CAN FD/LIN/SENT通信信号以及振动、应变和温度等NVH信号。

高达200 MS/s

隔离1000 V输入，最高7000 V输入，带差分探头

高达8 G点内存

高达160 CH*（5个单元连接并同步）

*使用720221 16通道模块时最多640通道

10 Gbps PC流

实时计算/功率计算/电机dq分析

Two operation modes: oscilloscope and recorder

There are two modes, "Scope Mode" and "Memory Recorder Mode", to suit the environment and purpose.

Scope Mode

• This is an operation mode suitable for measuring high-speed signals and repetitive waveforms.

• Like an oscilloscope, the waveform is recorded each time a trigger occurs according to the set time axis setting (T/Div) and number of sampling points.

• The measurement range is displayed in scale units (V/Div).

Memory Recorder Mode

• This is an operation mode suitable for measuring continuous waveforms over long periods of time.

• Like a data logger or recorder, it performs one-shot measurements with predefined measurement conditions, and records input signals by setting the sampling interval and recording time.

• The measurement range is displayed relative to the full width (upper and lower limits).

Maximum 200 MS/s, isolated 1000 V input. Up to 7000 V possible with differential probe

High-speed sampling of up to 200 MS/s 14 bits is possible, allowing you to accurately capture switching waveforms of high-speed inverters and rapid noise around power supplies.
In addition, when combined with a large-capacity memory of up to 8 G points, you can record continuously for up to 20 seconds even at high-speed sampling of 200 MS/s.

• The 720212 can provide isolated 1000V input when combined with the 700929 (10:1) /702902 (10:1) /701947 (100:1) passive probes.

• The 701255 High-Speed 10MS/s 12-Bit Non-Isolated Module or Isolated Module can be combined with the 701905 Conversion Cable and 701977 High-Voltage Differential Probe to measure high voltages up to 7000V.

Action on trigger and GO/NO-GO judgement

The Action on Trigger function automatically performs predefined tasks-such as saving data files, activating a buzzer, or sending email notifications-when a trigger condition is met. Additionally, it can perform pass/fail (GO/NO-GO) evaluations based on waveform parameters such as shape or amplitude, and execute actions based on the result.