• Measurement accuracy and versatility for 1.0 millimeter test systems
• Ruggedized connector on one end
• Ease of use for on-wafer and coaxial measurements
• Insertion loss (typical) : 0.5 dB @110 GHz, 0.7 dB @120 GHz
• Return loss: 14 dB (75 to 120 GHz)
• Maximum CW power: 10 W
• Repeatability: -35 dB

The Keysight Y1900B precision 1.0 millimeter coax-to-ruggedized-coax adapter offers a simple way of measuring coaxial devices at higher frequencies. It is designed for the measurement of components with 50 ohms and frequency range from DC to 120 GHz.

The Keysight Y1701A includes a latch kit for connecting two Keysight Streamline Series USB instruments. Optional interconnect cables are available to connect two USB vector network analyzers to increase the number of test ports.

• Option 001 Interconnect cables for multiport configuration of P937xA
• Option 101 Latch kit for connecting two 1-slot USB instruments
• Option 002 Interconnect cables for multiport configuration of P50xxA (up to 20 GHz)

• measurement accuracy and versatility for 1.0 millimeter test systems
• ruggedized connectors on both ends
• ease of use for on-wafer and coaxial measurements
• insertion loss (typical) : 0.5 dB at 110 GHz, 0.7 dB at 120 GHz
• return loss: 14 dB (75 to 120 GHz)
• maximum CW power: 10 W
• repeatability: -35 dB

The Keysight Y1900D precision 1.0 millimeter ruggedized-coax-to-ruggedized-coax adapter offers a simple way of connecting two ruggedized 1.0 mm male connectors on instruments at higher frequencies. It is designed for the measurement of components with 50 ohms and frequency range from DC to 120 GHz.

The WJ1100A CipherJudge Key Intercept HW Kit is a pocket-sized device that physically connects to a mobile of interest, and functions as an add-on to the SJ001A WaveJudge Wireless Analyzer Toolset.

Key Features:

• Intercepts the messages between the ME (Mobile Equipment) and USIM (Universal Subscriber Identity Module)
• Allows the SJ001A WaveJudge Wireless Analyzer to uniquely identify a UE, and decode all messages between UE and the Base Station
• Enables engineers to benchmark network attach, debug handover issues and contribute to QoE analysis in deployed networks
• Diagnoses problems of a unique UE operating in a network serving hundreds of other users while encryption is enabled

The U5762A is a USB Standard-A to Mini Type-B interface cable for data transfer to and from the Keysight TrueIR thermal imager.

• USB Standard-A to Mini Type-B interface cable for data transfer 
• Length: 1 m

The U5761A is a video RCA to RCA interface cable to output display of the  TrueIR thermal imager to an external display.

• Video RCA to RCA interface cable for external video output
• Length: 2 m

Data Pod Configuration

• Logic level support: 3-state 1.8 V
• Recommended lead set: Keysight 10498A
• Order at least one data pod for every 8 output channels
• Design in a dedicated header for pod connection or order one 8-channel lead set for each pod

Features

• Maximum clock: 300 MHz
• Skew: Typical less than 1.5 ns; worst case 2.5 ns
• 3-state enable: negative true; no connect=enabled
• Output type: 74AVC16244

The 3-State 1.8V data pod supports Keysight Technologies­ 16720A and 1670G-004 pattern generators. Each pattern generator requires at least one clock pod, up to 4 data pods, and lead sets for each clock and data pod. For each 10476A data pod that you will be using, you will need one (1) 10498A lead set.

Data Pod Configuration

• Logic level support: 3-state 2.5 V
• Recommended lead set: Keysight 10498A
• Order at least one data pod for every 8 output channels
• Design in a dedicated header for pod connection or order one 8-channel lead set for each pod

Features

• Maximum clock: 300 MHz
• Skew: Typical less than 1.5 ns; worst case 2.5 ns
• 3-state enable: negative true; no connect=enabled
• Output type: 74AVC16244

The 3-State 2.5V data pod supports Keysight Technologies­ 16720A and 1670G-004 pattern generators. Each pattern generator requires at least one clock pod, up to 4 data pods, and lead sets for each clock and data pod. For each 10473A data pod that you will be using, you will need one (1) 10498A lead set.

Clock Pod Configuration

• Logic level support: ­3.3V LVPECL
• Recommended lead set: Keysight 10498A
• Order at least one clock pod for each pattern generator module used as a master or each 1682xA portable logic analyzer
• Design in a dedicated header for pod connection or order one 8-channel lead set for each pod

Clock Output

• Clock output type: 100LVEL90 (3.3 V) with 215 ohm pulldown to ground and 42 ohm in series
• Clock output rate: 300 MHz maximum
• Clock out delay: 11ns maximum in 9 steps

Clock Input

• Clock input type: 100LVEL91 LVPECL (3.3 V), no termination
• Clock input rate: DC to 300 MHz
• Clock in to clock out: approximately 30 ns

Pattern Input

• Pattern input type: 100LVEL91 LVPECL (3.3 V), no termination (no connect is logic 0)
• Pattern in to recognition: approximately 15 ns + 1 clk period

Each Keysight Technologies 16720A pattern generator module needs one clock pod and up to four data pods. Each data pod provides eight output channels. With each order of this 3.3V LVPECL Clock Pod, order (1) 10498A Lead Set.

See product literature, ''Keysight 1670G Series Benchtop Logic Analyzers.''

Clock Pod Configuration

• Logic level support: ­5V PECL
• Recommended lead set: Keysight 10498A
• Order at least one clock pod for each pattern generator module used as a master or each 1682xA portable logic analyzer
• Design in a dedicated header for pod connection or order one 8-channel lead set for each pod

Clock Output

• Clock output type: 10EL90 (5 V) with 348 ohm pulldown to ground and 42 ohm in series
• Clock output rate: 300 MHz maximum
• Clock out delay: 11 ns maximum in 9 steps

Clock Input

• Clock input type: ECL - 100EL91 PECL (5 V), no termination
• Clock input rate: DC to 300 MHz
• Clock in to clock out: approximately 30 ns

Pattern Input

• Pattern input type: 100EL91 PECL (5 V), no termination (no connect is logic 0)
• Pattern in to recognition: approximately 15 ns + 1 clk period

Each Keysight 16720A pattern generator module needs one clock pod and up to four data pods. Each data pod provides eight output channels. With each order of this 5V PECL Clock Pod, order (1) 10498A Lead Set.

See product literature, ''Keysight 1670G Series Benchtop Logic Analyzers.''

Data Pod Configuration

• Logic level support: 5 V PECL
• Recommended lead set: Keysight 10498A
• Order at least one data pod for every 8 output channels
• Design in a dedicated header for pod connection or order one 8-channel lead set for each pod

Features

• Maximum clock: 300 MHz
• Skew: Typical less than 500 ps; worst case = 1 ns
• Output type: 100EL90 (5 V) with 348 ohm pulldown to ground and 42 ohm in series

Each Keysight 16720A pattern generator module needs one clock pod and up to four data pods. Each data pod provides eight output channels. Order 1 to 4 sets where a set is (1) of these 8-Channel data pods + (1) 10498A lead set.

See product literature, ''Keysight 1670G Series Benchtop Logic Analyzers.''

Data Pod Configuration

• Logic level support: ECL (unterminated)
• Recommended lead set: Keysight 10347A
• Order at least one data pod for every 8 output channels
• Design in a dedicated header for pod connection or order one 8-channel lead set for each pod

Features

• Maximum clock: 200 MHz
• Skew: Typical less than 1 ns; worst case = 2 ns
• Output type: 10H115 (no termination)

Each Keysight Technologies 1670G Series pattern generator (Option 004) needs one clock pod and up to four data pods. Each data pod provides eight output channels. Order 1 to 4 sets where a set is 1 of these data pods + (1) 10347A lead set.

See product literature, ''Keysight 1670G Series Benchtop Logic Analyzers.''

Data Pod Configuration

• Logic level support: ECL (terminated)
• Recommended lead set: Keysight 10474A
• Order at least one data pod for every 8 output channels
• Design in a dedicated header for pod connection or order one 8-channel lead set for each pod

Features

• Maximum clock: 200 MHz
• Skew: Typical less than 1 ns; worst case = 2 ns
• Output type: 10H115 with 330 ohm pulldown, 47 ohm series

Each Keysight 1670G Series pattern generator (004) needs one clock pod and up to four data pods. Each data pod provides eight output channels. Order 1 to 4 sets where a set is 1 of these data pods + (1) 10474A lead set.

See product literature, ''Keysight 1670G Series Benchtop Logic Analyzers.''

Clock Pod Configuration

• Logic level support: ­ECL
• Recommended lead set: Keysight 10474A
• Order at least one clock pod for each pattern generator module used as a master or each 1682xA portable logic analyzer
• Design in a dedicated header for pod connection or order one 8-channel lead set for each pod

Clock Output

• Clock output type: 10H116 differential unterminated; and differential with 330 ohm to -5.2 V and 47 ohm series
• Clock output rate: 200 MHz maximum
• Clock out delay: 11 ns maximum in 9 steps

Clock Input

• Clock input type: ECL - 10H116 with 50 kohm to -5.2 V
• Clock input rate: DC to 200 MHz
• Clock in to clock out: approximately 30 ns

Pattern Input

• Pattern input type: ECL - 10H116 with 50 kohm (no connect is logic 0)
• Pattern in to recognition: approximately 15 ns + 1 clk period

Each Keysight Technologies 1670G Series pattern generator (Option 004) needs one clock pod and up to four data pods. Each data pod provides eight output channels. With each order of this ECL Clock Pod, order (1) 10474A Lead Set.

See product literature, ''Keysight 1670G Series Benchtop Logic Analyzers.''

Data Pod Configuration

• Logic level support: 3-state TTL/CMOS
• Recommended lead set: Keysight 10474A
• Order at least one data pod for every 8 output channels
• Design in a dedicated header for pod connection or order one 8-channel lead set for each pod

Features

• Maximum clock: 100 MHz
• Skew: Typical less than 4 ns; worst case = 12 ns
• 3-state enable: negative true, 100 k Ω to GND, enabled on no connect
• Output type: 74ACT11244 with 100 Ω series; 10H125 on a non 3-state channel 7

Each Keysight 1670G Series pattern generator (Option 004) needs one clock pod and up to four data pods. Each data pod provides eight output channels.

Order 1 to 4 sets where a set is (1) of these 8-Channel data pods + (1) 10474A lead set.

See product literature, ''Keysight 1670G Series Benchtop Logic Analyzers.''

Data Pod Configuration

• Logic level support: 5 V TTL
• Recommended lead set: Keysight 10474A
• Order at least one data pod for every 8 output channels
• Design in a dedicated header for pod connection or order one 8-channel lead set for each pod

Features

• Maximum clock: 200 MHz
• Skew: Typical less than 4 ns; worst case = 4 ns
• Output type: 10H125 with 100 ohm series

Each Keysight Technologies 1670G Series pattern generator (004) needs one clock pod and up to four data pods. Each data pod provides eight output channels.

Order 1 to 4 sets where a set is (1) of these 8-Channel data pods + (1) 10474A lead set.

See product literature, ''Keysight 1670G Series Benchtop Logic Analyzers.''

Clock Pod Configuration

• Logic level support: ­5V TTL
• Recommended lead set: Keysight 10474A
• Order at least one clock pod for each pattern generator module used as a master or each 1682xA portable logic analyzer
• Design in a dedicated header for pod connection or order one 8-channel lead set for each pod

Clock Output

• Clock output type: 10H125 with 47 ohm series; true and inverted
• Clock output rate: 100 MHz maximum
• Clock out delay: 11 ns maximum in 9 steps

Clock Input

• Clock input type: TTL - 10H124
• Clock input rate: DC to 100 MHz
• Clock in to clock out: approximately 30 ns

Pattern Input

• Pattern input type: TTL - 10H124 (no connect is logic 1)
• Pattern in to recognition: approximately 15 ns + 1 clk period

Each Keysight Technologies 1670G Series pattern generator (Option 004) needs one clock pod and up to four data pods. Each data pod provides eight output channels.

With each order of a 10460A TTL Clock Pod, order (1) 10474A Lead Set.

See product literature, ''Keysight 1670G Series Benchtop Logic Analyzers.''

For 16 measurement channels. One DB37(f) connector to connect to 16 channels of BT2152B. The DB37(f) connects on the board to two 16-pin screw terminal connectors (one for + terminal of all channels and one for – terminal of all channels). The screw terminal connectors support twisted-pair wiring (16-30 AWG) to the cells-under-test or to fixturing for the cells. Screw terminals are on 4 mm spacing. Boards have feet to use on a table and 4 mounting holes for standoffs and/or to attach the board inside test fixtures or cabinets. 

BT2180A dimensions

Allow 60 mm clearance from edge of BT2180A for BT2181A/82A connector body.

Allow 25 mm clearance for height of BT2180A and BT2181A/82A connector body.

Learn more about Keysight Self-Discharge Measurement Solutions

• Allows U4432A SMA harness to have electrical properties of U4433A flying leads for mid-bus probing
• Supports up to HS G3 MIPI M-PHY signals
• Includes test points for N5426A ZIF tip oscilloscope adapter (InfiniiMax II probe)

The N4230A SMA breakout board is a new accessory for the U4431A MIPI M-PHY protocol analyzer. This board allows the U4432A SMA harness (50 Ω matched impedance) to act as a High-Z mid-bus probe.

Many developers use SMA or SMP to connect their host and device development boards. The N4230A breakout allows them to maintain this topography without relying on a solder-in connection to sniff traffic. In addition, this board has solder points to allow an InfiniiMax II ZIF header for correlation of analyzer and scope traces.

• ruggedized 1.0 mm female connector for use with a measurement instrument with a ruggedized 1.0 male connector
• E-band, 60 GHz to 90 GHz
• return loss: >=16 dB (20 dB typical)
• insertion loss: <=0.7 dB (0.5 dB typical)
   

The Keysight E281ES in-line ruggedized 1.0 mm (f) - to - WR-12 waveguide adapter offers a way of interconnecting a ruggedized 1.0 mm connector port to a waveguide device in E-band, 60 GHz to 90 GHz. The waveguide port of the adapter is equipped with a metrology grade interface that includes an outer anti-cocking ring for repeatable connections and precision alignment holes above and below the broad wall of the waveguide opening to provide more accurate alignment for connecting calibration standards.

• GPIB to LAN interface module for use with Keysight's 7000, 9000A and 9000 H-Series oscilloscopes
• Custom software or driver not required on either the controller or instrument
• Power from USB host port of scope or PC

Keysight’s N4865A is a GPIB to LAN adapter that provides a GPIB interface for VXI-11.3 compatible LAN based oscilloscopes such as Keysight’s 4000X, 6000X, 7000, 9000A and 9000 H-Series. Using the N4865A, GPIB applications running on a computer can transparently interface to a LAN based instrument as if it were a GPIB instrument.

The N4865A will not require any custom software or driver on either the controller or the instrument beyond whatever GPIB software is already in use. The product is compatible with the LXI AutoIP standard or can use a static IP address.