LXI超低温漂矩阵

Pickering的LXI超低温漂矩阵与常规的开关矩阵相比,具有出色的热稳定性和超低的热电动势。典型的应用有自动测试设备的信号路由,选择热电偶输入,开关放大器增益电路和高精度直流微伏测量。

我们的超低温漂矩阵具有两种类型:

  • 超低温漂矩阵 (型号60-510) - 采用钌合金舌簧开关,具有良好的低电平开关能力,使用寿命长,接触电阻稳定性好,热偏移小。开关电压最高150VDC/100VAC,功率最高10W。
  • EMR超低温漂矩阵 (型号 60-511) - 采用触点镀金的高品质电磁继电器。优化了开关矩阵的路由,具有超低的热偏移。开关电压最高200VDC/170VAC,功率最高60W。

这两款超低温漂矩阵均依照 LXI 1.4标准 进行设计,并且置于2U高度,全机柜宽度,500mm深度的机箱内。通过使用我们的通用开关驱动器,可通过LAN接口进行完全的编程。行业标准(W3C)网页浏览器可用于访问和更改配置信息并且还可以访问软件面板。这两款矩阵都非常适用于要求启动方便和远距离控制的应用。

部分模块可被我们的 eBIRST开关系统测试工具 所支持,这些工具能够为在LXI,PCI和PXI开关系统中查找继电器故障提供快速简便的方法。另外,这些模块还可被我们种类齐全的 线缆和连接器配件 所支持,并且带有标准的三年质保

下方的表格有助于您选择适合您应用的产品版本:

超低温漂矩阵 | Pickering公司
Untitled Button
Switch Type
Max I (A)
Max V DC
Poles
Banks
X Size
Y Size
Price
LXI Low Thermal EMF Matrix 1-pole 44x33

60-510-021

LXI Low Thermal EMF Matrix 1-pole 44x33

High-density 1-pole matrix module controlled via LXI. Supported by our eBIRST Switching System Test Tools

Switch Type
Reed
Max I (A)
1
Max V DC
150
Poles
1
Banks
1
X Size
44
Y Size
33
Product Type
Matrices
Platform
LXI
Function
Matrix
LXI EMR Low Thermal EMF Matrix 14x33

60-511-004

LXI EMR Low Thermal EMF Matrix 14x33

High-density 1-pole matrix module controlled via LXI. Supported by our eBIRST Switching System Test Tools

Switch Type
EMR
Max I (A)
1
Max V DC
200
Poles
1
Banks
1
X Size
14
Y Size
33
Product Type
Matrices
Platform
LXI
Function
Matrix
¥115,900
LXI Low Thermal EMF Matrix 1-pole 14x33

60-510-004

LXI Low Thermal EMF Matrix 1-pole 14x33

High-density 1-pole matrix module controlled via LXI. Supported by our eBIRST Switching System Test Tools

Switch Type
Reed
Max I (A)
1
Max V DC
150
Poles
1
Banks
1
X Size
14
Y Size
33
Product Type
Matrices
Platform
LXI
Function
Matrix
¥153,175
LXI EMR Low Thermal EMF Matrix 28x33

60-511-003

LXI EMR Low Thermal EMF Matrix 28x33

High-density 1-pole matrix module controlled via LXI. Supported by our eBIRST Switching System Test Tools

Switch Type
EMR
Max I (A)
1
Max V DC
200
Poles
1
Banks
1
X Size
28
Y Size
33
Product Type
Matrices
Platform
LXI
Function
Matrix
¥173,300
LXI EMR Low Thermal EMF Matrix 42x33

60-511-002

LXI EMR Low Thermal EMF Matrix 42x33

High-density 1-pole matrix module controlled via LXI. Supported by our eBIRST Switching System Test Tools

Switch Type
EMR
Max I (A)
1
Max V DC
200
Poles
1
Banks
1
X Size
42
Y Size
33
Product Type
Matrices
Platform
LXI
Function
Matrix
¥233,800
LXI Low Thermal EMF Matrix 1-pole 28x33

60-510-003

LXI Low Thermal EMF Matrix 1-pole 28x33

High-density 1-pole matrix module controlled via LXI. Supported by our eBIRST Switching System Test Tools

Switch Type
Reed
Max I (A)
1
Max V DC
150
Poles
1
Banks
1
X Size
28
Y Size
33
Product Type
Matrices
Platform
LXI
Function
Matrix
¥259,250
LXI EMR Low Thermal EMF Matrix 56x33

60-511-001

LXI EMR Low Thermal EMF Matrix 56x33

High-density 1-pole matrix module controlled via LXI. Supported by our eBIRST Switching System Test Tools

Switch Type
EMR
Max I (A)
1
Max V DC
200
Poles
1
Banks
1
X Size
56
Y Size
33
Product Type
Matrices
Platform
LXI
Function
Matrix
¥291,325
LXI Low Thermal EMF Matrix 1-pole 42x33

60-510-002

LXI Low Thermal EMF Matrix 1-pole 42x33

High-density 1-pole matrix module controlled via LXI. Supported by our eBIRST Switching System Test Tools

Switch Type
Reed
Max I (A)
1
Max V DC
150
Poles
1
Banks
1
X Size
42
Y Size
33
Product Type
Matrices
Platform
LXI
Function
Matrix
¥365,275
LXI Low Thermal EMF Matrix 1-pole 56x33

60-510-001

LXI Low Thermal EMF Matrix 1-pole 56x33

High-density 1-pole matrix module controlled via LXI. Supported by our eBIRST Switching System Test Tools

Switch Type
Reed
Max I (A)
1
Max V DC
150
Poles
1
Banks
1
X Size
56
Y Size
33
Product Type
Matrices
Platform
LXI
Function
Matrix
¥471,425

Filter

Switch Type

EMR - Electro-Mechanical Relay, cost-effective, medium power switching. Reed - reed relays, excellent low-level switching, fast, long life. Solid-State - very fast, indefinite life, high power switching, but high leakage and insertion loss.

Max I (A)

Maximum continuous current each switch can carry.

Max V DC

The maximum voltage that may be applied to each switch.

Poles

The number of common terminals simultaneously switched by a single operation. … more

Banks

The number of independent switch topologies on a single module.

X Size

The number of matrix columns, used with Y Size to specify the size of a cross-point matrix.

Y Size

The number of matrix rows, used with X Size to specify the size of a cross-point matrix.

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