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Advantest Q8221 Optical Multifunction Power Meter

High Accuracy, High Sensitivity, High Speed

Optical power meter

Various optical sensors and light sources are available High accuracy :

± 2.5% (at calibration point)

± 4.5% (over the entire wavelength range)

Linearity : ± 0.5%

Low polarization dependence: 0.003 dBp-p

High sensitivity: -94 dBm

High power input level: +27 dBm

High-speed measurement: sampling rate of 100 times/second

Flexibility to meet the diverse needs of users for optical power measurement

Features

Flexible combination – dual-channel plug-in system.

The Q8221 utilizes a dual-channel plug-in system. www.abb-drive.com Various types of optical sensors and light sources are available as plug-in units. Both channels can be used independently or simultaneously. By using the desired combination of optical sensors and light sources, the Q8221 can handle a wide variety of applications.

High measurement accuracy.

Ensure accuracy over the entire power and wavelength range.

The Q8221’s optical sensors ensure a high accuracy of ±2.5% at the calibration point (short-wavelength sensors: Q82214 calibrated at 780nm; long-wavelength sensors: Q82208. Q82215. and Q82216 calibrated at 1300nm; Q82227 and Q82232 calibrated at 1550nm). In the broadband wavelength region, they ensure ±4.5% accuracy by compensating for the sensitivity curve at each sensor wavelength. In the broadband wavelength region, they ensure ±4.5% accuracy by compensating the sensitivity curve at each sensor wavelength. In addition, a linearity of ±0.5% is ensured. Not only in the calibration point, but also in the broadband wavelength region and at the level to be measured.

High Sensitivity Sensors

Noise level: -94 dBm.

The Q82208 and Q82232 optical sensors achieve high sensitivity by cooling the InGaAs photodiode. the Q82208. in particular, achieves -94 dBm. all three types are capable of measuring high power up to +10 dBm with high linearity. These sensors meet a wide range of user requirements for polarization correlation, return loss, and sensor type. They meet a wide range of measurement requirements.

High Power Input Optical Sensors (Q82227)

Maximum input power: +27 dBm

The Q82227 is suitable for long wavelength, high sensitivity and high power light. The sensor is capable of measuring optical inputs up to +27 dBm. Therefore, it is suitable for measuring the output of fiber-optic amplifiers, pump sources for fiber-optic amplifiers, and high-output devices (e.g., LDs for optical CATV). In addition, the Q82227 has a noise level of -80 dBm, so it can be used for measurements requiring a wide dynamic range.

Low polarization-dependent optical sensor (Q82232): 0.003 dBp-p or lower

The high-sensitivity Q82232 optical sensor has a polarization dependence as low as 0.003 dBp-p. Used in conjunction with the Q8163 polarization scrambler, it can be used for high-speed, high-precision PDL measurements of optical devices.

Low Reflection, High Return Loss Sensors

Adapters with Minimal Reflection

If the input light is reflected back, the effect on the system can lead to inaccurate measurements. the Q82208 optical sensors use optical fibers with beveled polished ends to suppress reflections (return loss of 50 dB or more). the Q82208 is designed for use in optical devices with high speed and high accuracy PDL measurements. the Q82208 is designed for use in optical devices with high speed and high accuracy. When using PC-polished connectors, 45 dB or more return loss can be obtained by using a low-loss, high-return-loss adapter (typical return loss without this adapter is 14 dB). The sensor is suitable for fibers with core diameters of 10 μm and NA values of 0.19 or less, making it suitable for measuring dispersion-shifted fibers. FC, SC, ST, MU, LC, and plug-in connectors are available.

Options available.

High-resolution measurement.

Displays 0.001 dB/0.0001 dB GPIB output.

Absolute power measurements (dBm) and relative power measurements (dBr) are displayed with 0.001 dB resolution.

During GPIB output, the data output resolution is 0.0001 dB.

High-speed, high-throughput measurements.

Up to 100 measurements/second

For all sensors, the Q8221 has a sampling rate of 100 times per second and a ranging rate (time required to move to different ranges) of up to 500 ms (20 ms minimum). In addition, the ability to transmit GPIB outputs at a high speed of 100 times per second dramatically increases the throughput of the production line.

Recording Functions, PDL Measurement Functions

The Q8221’s A and B channels can independently store data containing 400 points. In addition, the stored data can be output directly to an external plotter in the form of a graph. In addition, the Q8221 displays the maximum value, minimum value, and the difference between the maximum and minimum values of the measured data, making PDL measurements with the Q8221 very simple.

Advantest U3661 Microwave Spectrum Analyzer

At 8.5 kg, the U3661 is the world’s lightest microwave spectrum analyzer, meeting the diverse needs of a wide range of communication systems.

The U3661 not only enhances the basic performance of a spectrum analyzer, but also includes many standard features such as power calculation and high-speed scanning.

The U3661’s compact, lightweight design and three-way power supply system, including batteries, make it the perfect analyzer for field measurements.

The unit also has a built-in RC232 interface for connection to a personal computer, facilitating flexible data management using standard memory cards.

Excellent basic performance and measurement applications

Wideband scanning

The U3661 can continuously scan a frequency bandwidth from 9 kHz to 26.5 GHz on a single screen. Harmonic measurements or spurious signal measurements over a wide bandwidth can be easily compared relative to the fundamental.

Outstanding signal purity

The U3661’s local oscillator is equipped with a precision synthesizer that achieves a signal purity of -100 dBc/Hz (at frequencies ≤3.2 GHz and an offset frequency of 10 kHz). It meets a variety of needs, from adjacent channel leakage power measurements at radio facilities to microwave equipment evaluation.

Occupied frequency bandwidth

The U3661 calculates the bandwidth for a specified power ratio based on the measured spectrum data and then displays it with a marker. In addition, it displays the occupied frequency bandwidth (OBW) and carrier frequency (FC).

Adjacent Channel Leakage Power

The U3661 obtains the total power from the measurement data on the screen. It then integrates the www.abb-drive.com power over the specified bandwidth (BS) to obtain its ratio to the total power.

ACP POINT and ACP GRAPH measurement methods can be selected.

Various Measurement Applications Power Measurement Functions

Average power

Digital mobile communication systems use modulation patterns that can handle signals with large amplitude variations.

Therefore, we have included an average power calculation function that allows power measurement of signals with amplitude variations.

Total Power

For spread spectrum signals used in CDMA or wireless LANs, the total power measurement function is essential. This function consists of two modes: a channel mode for measuring the in-band power specified in the measurement window, and a total power mode for measuring the total power over the entire measurement span.

1 Hz resolution frequency counter

Simply by adjusting the counter markers according to the spectrum, the U3661 can display a frequency counter with a minimum resolution of 1 Hz. This feature is very useful in multicarrier frequency measurements such as mobile radio or CATV systems, where it is difficult to do so with conventional frequency counters.

Multiple Markers

Up to six markers can be set up on a single screen, and a corresponding marker can be assigned to any frequency. The multi-tag function automatically detects peaks and displays a list of frequencies sorted by level or frequency.

The U3661 allows channels to be set for communication systems in major countries.

Most communication systems utilize the FDMA (Frequency Division Multiple Access) method. When observing signals with the U3661. each carrier band to be measured can be registered in the built-in table as a user channel. This makes it possible to call the center frequency by the channel number, thus improving efficiency.

Channel numbers from 1 to 99 can be registered, and two tables are provided. For TV broadcast waves, frequencies can be preset according to the VHF, UHF, CATV BS and CS band names of major countries.

If the CMDA option (OPT 60) is added to the U3661. the CDMA transmission characteristics specified in the IS-95 and J-STD-008 standards can be measured in a single operation.

Functional Features

– Automatic internal setting of CDMA parameters

– Frequency adjustment settings by channel number

– High-stability CDMA channel power measurement function

– High-sensitivity power measurement with built-in preamplifier

Measurement items

– Channel power measurement

– OBW measurement

– ACP (Spectrum Mask) Measurement

– Spurious emission (in-band) measurement

Parker VMM3120 Controllers

APPLICATIONS

The VMM3120 is a general-purpose controller for vehicles and other applications where the steady-state voltage is less than or equal to 32 Vdc.

It has 31 inputs and 20 outputs and two CAN/J1939 communication ports.

The module is fully compatible with other Parker Vansco multiplexer modules.

Features

The VMM3120 has 17 digital inputs. The digital inputs are used to read high level active signals.

Two of the inputs can be used for power control.

In addition, it has 10 inputs that read analog voltages and 4 frequency inputs (2 AC-coupled and 2 DC-coupled).

The VMM3120 has 16 high voltage side outputs with a maximum PWM frequency of 500 Hz and 4 low voltage side outputs with current detection.

The outputs can drive any type of vehicle load, including relays, solenoids, fans, and more.

The system meets the stringent SAE J1455 environmental standard and advances multiplexing technology with enhanced diagnostic capabilities and Windows-based ladder logic programming.

The unit can be used alone or in conjunction with other multiplexing modules.

The multiplexing system is designed to simplify and reduce troubleshooting, maintenance and documentation time for electrical systems.

The modules are self-programmable and feature LED status indicators that show the status of inputs, outputs, power supplies and network activity.

Reliability

The VMM3120 continuously monitors its 20 outputs for fault information. Faults detected include short circuits (ground or power), overcurrents, and open loads.

The VMM3120 allows the outputs to protect themselves www.abb-drive.com electronically, thus allowing the system to reduce the number of fuses.

In the event of a fault, the device disables the output where the fault occurred.

On-board diagnostics allow for easy troubleshooting, and the auto-programmable module saves time and maintenance costs by keeping module and program inventory to a minimum.

VMM users appreciate the module’s rugged design as well as the stringent industry environmental requirements and communications (SAE J1939) standards.

All of these features make the controller easy to integrate into any on- or off-highway vehicle.

Parker CM0711 Controller Electronic Control Systems

APPLICATIONS

The CM0711 is a ruggedized CAN controller.

It is primarily used for powertrain control (e.g. powershift transmission), to realize a single function of the vehicle (e.g. auxiliary hydraulic control), or as an additional controller for the system when the existing main controller cannot provide enough I/O for the system.

or as an add-on controller for systems where an existing host controller cannot provide enough I/O for the system.

The CM0711 focuses primarily on high-end output control and closed-loop current control, but can also measure analog and digital input signals.

Multiple modules in a system can be recognized through the addressable IDtag input built into the harness.

The CM0711 comes with a Software Development Kit (SDK) that allows customers to develop their own software.

Features

Input/Output Flexibility

The CM0711 can control proportional valves using either current mode (current closed loop) or PWM mode (voltage open loop) signals.

The module has 7 high voltage side outputs with error detection and 4 low voltage side outputs.

The analog inputs accept a 0-5V signal from an input device or sensor.

The digital inputs can also be configured to measure 2 frequencies or 1 directional frequency (quadrature) input.

The high-side outputs can also be used as digital inputs for switches.

Weatherproof

The rugged aluminum housing is equipped with 2 environmentally sealed 18-pin Deutsch DT14-18 type connectors.

The controller is designed for outdoor environments.

Diagnostic Functions

An internal watchdog checks for software errors and will interrupt the output if an error is found.

Outputs have diagnostic functions such as open load, current feedback.

The reference output voltage used to power the sensors can be diagnosed.

In addition, the supply voltage can be monitored as well as certain internal signals.

The module has an internal temperature sensor for protection of the module and system equipment.

There is a diagnostic LED on the top of the module.

Parker VMM1615 Controllers

APPLICATIONS

The VMM1615 is a general-purpose controller for vehicles and other applications where the steady-state voltage is less than or equal to 32 Vdc.

It has 16 inputs and 15 outputs and two CAN/J1939 communication ports.

The module is fully compatible with other Parker Vansco multiplexer modules.

Features

The VMM1615 has a CAN wake-up function. It has 7 digital inputs;

Five of the inputs are used to read active high/low signals, one input is used to read active high signals, and one input is used for active high power control.

In addition, there are 8 analog voltage www.abb-drive.com readable inputs and a DC-coupled frequency input.

The VMM1615 has 12 high voltage side outputs with a maximum PWM frequency of 500 Hz, 4 of which provide accurate current detection.

It also has a low voltage side current sense output with a maximum PWM frequency of 1500 Hz and two solid state relay outputs.

These outputs can drive a variety of load types.

The system meets and exceeds SAE J1455 environmental standards and advances multiplexing technology with enhanced diagnostic features and Windows-based ladder logic programming.

The VMM1615 can be used alone or in conjunction with other multiplexing modules.

The multiplexing system is designed to simplify and reduce electrical system troubleshooting, maintenance and documentation time.

The modules are available in plug-and-play configurations and feature LED status indicators that show input, output, power, and network activity status.

Reliability

The VMM1615 continuously monitors its 15 outputs for fault information.

Faults detected include short circuits (ground or power), overcurrents, and open loads.

The VMM1615 allows the outputs to protect themselves electronically, thus allowing the system to reduce the number of fuses.

In the event of a fault, the device disables the output where the fault occurred.

On-board diagnostics allow for easy troubleshooting, and the autoprogrammable module saves time and maintenance costs by keeping module and program inventory to a minimum.

VMM users appreciate the module’s rugged design as well as the stringent industry environmental requirements and communications (SAE J1939) standards.

All of these features make the controller easy to integrate into any on- or off-highway vehicle.

Parker VMM2404 Controllers

APPLICATIONS

The VMM2404 is a general purpose controller for vehicles and other applications where the stabilized voltage is less than or equal to 32 Vdc.

The unit has 24 inputs and 8 outputs and a CAN/J1939 communications port.

The module is fully compatible www.abb-drive.com with other Parker Vansco multiplexer modules.

Features

The VMM2404 is available in two versions. The controller has 9 dedicated digital inputs and 15 general-purpose inputs that can be configured as active-high or active-low signals.

The general-purpose inputs can be used as frequency inputs (2 AC-coupled and 13 DC-coupled) or to read analog voltages within 4 programmable ranges.

The 0837001 unit has an analog voltage range of 0-32 volts DC for 12 or 24 volt systems.

It can be used with 0-5 volt DC input signals but has a lower resolution.

0837002 The analog range is 0-16 volts DC and is primarily recommended for 12 volt systems.

This device provides high resolution for 0-5 volt DC input signals.

The VMM2404 has four high voltage side outputs with a maximum PWM frequency of 500 Hz and four low voltage side outputs that can be current sensed.

The outputs can drive any type of vehicle load, including relays, solenoids, fans, and more.

The system meets the stringent SAE J1455/EP455 environmental standards and advances multiplexing technology with enhanced diagnostic capabilities and Windows-based ladder logic programming.

The VMM2404 can be used alone or in conjunction with other multiplexing modules.

The controller is self-programmable and features LED status indicators for input, output, power and network activity.

Reliability

The VMM2404 continuously monitors its eight outputs for fault information. Faults detected include short circuits, overcurrents and open loads.

The VMM2404 allows the outputs to protect themselves electronically, allowing the system to reduce the number of fuses.

In the event of a fault, the device will disable the output where the fault occurred.

The VMM2404 has 30 red LED diagnostic indicators that can be used to display the status of inputs, outputs, power supplies, and the Controller Area Network (CAN).

On-board diagnostics allow for easy troubleshooting, and the auto-programmable modules save time and maintenance costs by keeping module and program inventory to a minimum.

Parker VMM0604 Controllers

APPLICATIONS

The VMM0604 is a general purpose controller for vehicles and other applications where the stabilized voltage is less than or equal to 32 Vdc.

The unit has 6 inputs and 8 outputs and a CAN/J1939 communications port.

The module is fully compatible with other Parker Vansco multiplexer modules.

Features

The VMM0604 has 6 general purpose inputs that can be configured as active high or active low signals.

In addition, they can be used to read analog voltages or as 6 frequency inputs (2 AC-coupled and 4 DC-coupled).

The VMM0604 has 4 high voltage side outputs with a maximum PWM frequency of 500 Hz and 4 low voltage side outputs with current detection.

The outputs can drive any type of vehicle load, including relays, solenoids, fans, and more.

The system meets the stringent SAE J1455/EP455 environmental standards and advances multiplexing technology with enhanced diagnostic capabilities and Windows-based ladder logic programming.

The unit can be used alone or in conjunction with other multiplexing modules.

The multiplexing system is designed to simplify and reduce troubleshooting, maintenance and documentation time for electrical systems.

The modules are self-programmable and feature LED status indicators that show the status of inputs, outputs, power supplies, and network activity.

Reliability

The VMM0604 continuously monitors its eight outputs for fault information.

Faults detected include short circuits (ground or power), overcurrents, and open loads.

The VMM0604 allows the outputs to protect themselves electronically, thus allowing the system to reduce the number of fuses.

In the event of a fault, the device will disable the output where the fault occurred.

The VMM0604 has 12 red LED diagnostic indicators that can be used to display the status of inputs, outputs, power supplies, and the Controller Area Network (CAN).

On-board diagnostics allow for easy troubleshooting, and the auto-programmable module saves time and maintenance costs by keeping module and program inventory to a minimum.

VMM users appreciate the module’s rugged design as well as the stringent industry environmental requirements and communications (SAE J1939) standards.

All of these features make the controller easy to integrate into any on- or off-highway vehicle.

ProSoft MVI56-MDA4 Analyzer Master Module

MDA Scientific CM4 Gas

Analyzer Main Module

MVI56-MDA4

The MVI56 MDA Scientific CM4 Gas Analyzer Master Module allows Rockwell Automation ControlLogix processors to easily interface with MDA Scientific CM4 gas monitoring hardware as a host.

Features and Benefits

The MVI56-MDA4 module is an input/output module between the CM4 network and the Rockwell Automation backplane.Data transfer from the ControlLogix processor is asynchronous with operation on the CM4 network.

The 5000 words of register space in the module are used to exchange data between the processor and the CM4 network.

General Specifications

– Single slot – 1756 backplane compatible

– Module is considered an input/output module with access to processor memory for data transfer between processor and module

– Ladder logic is used to transfer data between the module and the processor. Example ladder diagram files are included.

– Configuration data from a configuration text file downloaded to the module.

– Local or remote rack

Functional Specifications

Some general specifications include

– Supports storage and transfer of up to 5000 registers. File

– Two CM4 master ports.

– Configurable parameters include

o Baud rate 110 to 115.200

o Parity None, Odd, Even

o Data bits 5 to 8

o Stop bits 1 or 2

o RTS on and off timing 0 to 65535 milliseconds

o Use CTS modem line Yes or No

o Response timeout 0 to 65535 milliseconds

o Number of slaves 1 to 10

o Simplified data structure yes/no

o Protocol version 1 or 2

o Polling delay 0 to 65535 milliseconds.

Ports configured as virtual CM4 masters on the MVI56-MDA4 module will actively issue CM4 commands to other nodes on the CM4 network. Issues CM4 commands to other nodes on the CM4 network. Supports four read and five

Four read commands and five write commands are supported.

The MDA-4 product includes the following standard features Features:

– Two fully configurable serial ports, each capable of supporting CM4 master functions.

– Supports up to 10 CM4 units per serial port, for a total of 10 CM4 units per module, for a total of 10 units per module.

– Supports movement of binary, integer, ASCII, and floating-point data types Floating-point data type

– Memory maps are predefined in the module to facilitate ladder program execution.

– RS-485 connections on each port can be directly connected to the CM4 unit.

– Software Configuration (from processor ladder logic)

o Slave Address: 0 through 31

o Commands: select commands to be executed

– CM4 command codes are supported:

o Read Command

o 0x30 Get System Information

o 0x31 Get device status

o 0x36 Get alarm history

o 0x37 Get current point status

o Write command

o 0x51 Reset fault or alarm

o 0x52 Set key code

o 0x53 Lock keypad

o 0x60 End point lock

o 0x61 Start point lockout

– Returning the ladder processor’s mode of operation

– Return ladder processor error code

GE Mark VI Series IS215UCVEM06A Printed Circuit Boards

The IS215UCVEM06A is a printed circuit board for General Electric’s Speedtronic Mark VI turbine control system series.

The Mark VI series to which this IS215UCVEM06A printed circuit board product belongs, as evidenced in part by its complete extended series designation.

has been set up for specific applications in the management or control systems of General Electric compatible gas, steam and wind turbine automation components.

This represents a significant improvement over earlier iterations of GE’s Mark product families (including Mark V), which only had possible specific applications in gas and steam turbine automation drive assemblies.

In this case, the fact that the Mark VI family is popular in the larger image automation industry market is irrelevant, as the

This is because this IS215UCVEM06A product of the Mark VI series was one of the last General Electric Mark product lines to be developed, infusing patented Speedtronic control system technology into its range of different products.

Hardware Tips and Specifications

The IS215UCVEM06A is an Ethernet connected board. The IS215UCVEM06A then uses multiple ports on the front of the device.

These ports vary in shape and size. These ports are used to connect Ethernet cables and COM ports.

The IS215UCVEM06A uses various components such as capacitors, diodes, resistors, SD cards, batteries, and integrated circuits.

Each component works separately to help the board function as a whole. The condenser saves a variety of energy for the board.

Diodes direct energy in one direction instead of another. Resistors are a way for the board to get rid of energy that the board is not using.

SD cards are used as information and data storage. Integrated circuits are used to control the board. They hold all the data that tells the board how to perform.

The IS215UCVEM06A slides into place and has male terminals on the back for connecting this board to your system. There are other connection locations on the circuit board.

The IS215UCVEM06A has a large cooling unit that takes up half of the circuit board.

As mentioned earlier, this IS215UCVEM06A product of the larger www.abb-drive.com Mark VI turbine control system family is a product family that rarely comes with a lot of original instruction manual material available online;.

With this concerted lack of identification, the IS215UCVEM06A Functional Product Number itself can be viewed as a fairly robust primary source of IS215UCVEM06A Board hardware information.

This is because it actually encodes a series of functionally named segments of uniquely relevant IS215UCVEM06A Board details.

The series begins with the dual functionally named segments in the IS215 series labeling, which is indirectly responsible for the special Mark VI series of assembled versions of this IS215UCVEM06A entrusted to the PCB and its original domestic manufacturing location.

Of course, these are not the only hardware details revealed through a technician-led analysis of the IS215UCVEM06A’s functional product numbers; the

Some of the other relevant blocks of information embedded in this media include the IS215UCVEM06A board’s:

UCVE Functional Product Abbreviation

Level A Major Functional Product Revision

GE Mark VIe Series IS215UCCCH4A VME Controller Boards

The IS200SAMBH1A is an acoustic monitoring terminal board that is part of the GE Speedtronic Mark VI gas turbine controller.

The dual terminal board adds 18 inputs to the acoustic monitoring system via 36 terminals on the terminal strip for two-wire input connections.

The board also has terminal blocks with 36 terminal connections for two-wire buffered outputs for a total of 18 outputs.

Typically, these outputs are used to monitor voltage signals.

To protect against high-frequency noise from external sources, the IS200SAMBH1A is equipped with a passive electromagnetic interference (EMI) filter.

The IS200SAMBH1A has an attached metal frame that surrounds the PCB on all four sides.

The frame has a flat-top flange along each long side of the board that has been drilled with mounting slots or holes, as well as other flanges.

Various codes, including FA/00. are written on the surface of the board.

Standoffs and screw mounts attach the board assembly to the frame described earlier.

The board measures 9.1 inches x 5.625 inches. Air convection is used to cool the room.

The IS200SAMBH1A is a circuit board assembly manufactured by GE for the Mark VI and Mark VIe systems.

Both systems are GE-designed platforms that serve as management tools for their heavy-duty turbines, with the advantage of GE-designed integrated software and hardware.

This IS200SAMBH1A is used as an acoustic monitoring terminal board. It is a dual terminal board that provides 18 inputs for the acoustic monitoring system.

The board has 36 terminals www.abb-drive.com dedicated to 2-wire inputs. It also has 36 terminals for connecting external meters to the 2-wire buffered outputs.

This will provide 18 outputs. The outputs are used to monitor AC voltage signals.

The IS200SAMBH1A has an EMI (Electromagnetic Interference) filter to protect against very high frequency noise from external sources.

The IS200SAMBH1A is surrounded by a metal frame on all four edges. The frame has a flat top flange along both long sides of the plate.

This flange has several mounting holes/slots for mounting components. The plate is marked with the GE logo and code FA/00.

The assembly is held together by standoffs and screw mounts. The plate measures 5.625 inches x 9.1 inches and is cooled using air convection.

It has an operating temperature of -30 C to 65 C. The IS200SAMBH1A uses hardware jumpers to connect the constant current source to the SIGx line.

When using a PCB sensor (or any current output device), the jumper switch should be placed in the PCB location.

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