3-4 Keysight B1505A Configuration and Connection Guide
N1265A Connection Guide
Input Connection
Input Connection
Prepare the required cables listed in the following tables and connect them between the
B1505A terminals and the relative N1265A terminals. Table 3-2 shows the connections
without HVMCU and UHVU. Table 3-3 shows the additional connections for using
HVMCU. And Table 3-4 shows the additional connections for using UHVU. For the
additional information on the HVMCU, see "To Connect HVSMU Current Expander" on
page 5-34. For the additional information on the UHVU, see "To Connect Ultra High
Voltage Expander" on page 5-38.
Figure 3-1 N1265A Input Connectors on Rear Panel
SMU 1 ([1], [2]), 2 ([3], [4]), and 3 ([5], [6]) connectors are used for connecting the
MPSMU, HPSMU, or MCSMU. Also SMU 3 ([5], [6]) connectors can be used for
connecting HCSMU or DHCSMU. See Table 3-1 for the SMU signal assigned to the SMU
input connector by the type of the connected SMU.
The connectors [1], [3], and [5] are for connecting Force, and the connectors [2], [4], and
[6] are for connecting Sense of the measurement resource connected to the connectors [1],
[3], and [5] respectively.
For connecting HP/MPSMU, the connectors [2], [4], and [6] can be also used to connect
Force of other SMU for non-Kelvin connection.
NOTE For connecting MFCMU, use N1300A-001 CMU cable, N1260A high voltage bias-tee,
and N1254A-518 SHV(plug)-SHV(plug) cable.
UHV Bias Tee SMU SMU
123
±10 kV Max ±3 kV Max ±200 V Max 1 A
±200 V Max
2 A dc 40 A Pulse
To avoid electrical shock and instrument damage,
do not remove the cables during operation.
High
Low Low
High
To Use HPSMU/MPSMU
Connect the N1261A-001 protection adapter between the SMU
connectors and HPSMU/MPSMU to prevent damage to the SMU.
CAUTION
KCC-REM-ATi-
1H-ParaINSTR
Output Input
HVSMU
V Control I Control
MCSMU/HCSMU MCSMU/HCSMU
SMU
GNDU
Force
Sense
Force
Sense
Force
Sense
Force
Sense
N10149
LINE
100
-
240 V
50/60 Hz
400 VA Max
UHC Input
Interlock
Gate
Digital I/O
Selector Input
±3 kV Max ±200 V Max ±40 V Max ±40 V Max
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