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ZYGO ZMI-2002 8020-0211-1-J Measuring plate

Features:

Multi-axis boards require fewer backplane slots

Simplified P2 interface

Single or multiple boards can be easily bussed together

ZMI 2000 VME measurement boards www.honeywell-diver.com are single or dual axis boards that require fewer backplane slots.

The simplified P2 interface means that single or multiple boards can be easily bussed to a single servo card or motor controller.

Use the ZMI 2000 measurement board:

The ZMI 2002 provides two interferometric measurement axes on a single 6U VME board.

The measurement board is fully programmable via the interface bus (VME or ISA) or via the P2 interface. Reduced integration costs

Standard hardware interface for up to 16 axes at up to 7.7 MHz P2 data rate. Easily expandable to accommodate multiple axes at the same rate.

ZMI 2000 System Measurement Boards

# of axes per board 1 (ZMI 2001. ZMI PC) / 2 (ZMI 2002)

Power Requirements +5V ± 5% @ 3.5A (ZMI 2001. ZMI 2002. ZMI PC)

+12V ± 10% @ 0.1A (ZMI PC)

Position format 36-bit – 2’s complement

Speed format 32-bit – 2’s complement

Time Range 107.4 seconds

Time format 32-bit – 2’s complement

Time resolution 25 nanoseconds

Fibre optic signal reference and measurement

Error state reference (signal, PLL, DLL)

Measurements (missing, power down, blinking)

Velocity (board, user defined)

Acceleration

Overflow (32-bit, 36-bit)

System Synchronisation

Clock in or clock out

ZMI VME Compliance

VMEBus Specification Revision C.1

6U size

A16 or A24 addressing

D16 or D32 Data Transfer

D08 (0) Interrupt acknowledge cycle

ZMI PC compliant

UL94V0

Full-length ISA card

16-bit ISA bus

32 bit P2 bus

ZYGO ZMI-2002 8020-0211-1-J VME measurement boards are equipped with advanced signal processing for precise and accurate measurements.

Its [Sampling Rate] high sampling rate captures rapidly changing signals in real time. Wide [Input range] allows processing of various analogue and digital signals.

The board’s communication interface [interface] ensures seamless integration with other systems and software.

Its powerful power supply ensures stable and reliable operation even in harsh environments.

Whether for industrial automation, scientific research or telecommunications, the ZYGO ZMI-2002 8020-0211-1-J VME measuring board is an excellent choice for high-quality measurements.

Advantest R3132N One Spectrum Analyzer For Versatile Applications

Basic functions

Basic functions are reinforced so that R3132/3162 can be used in various fields.  For example, the internal automatic calibration function guarantees the total level accuracy of ±1.5dB, level correction factor can be stored in the internal memory, DDS is employed to improve frequency reading accuracy, and frequency span error is lowered to less than 1%.

The R3132/3162 offer wider dynamic range and lower 2nd and 3rd distortion by improving 1dB compression point.

As a result of increasing the sweep repetition cycles by improving the synthesized local oscillator, 20 traces/second (typ.) data rewriting becomes possible, enabling far more real-time waveform measurement.

high speed GPIB increase, the throughput of automatic measurement.

For many applications

For EMI precompliance measurement, 6-dB bandwidth filters for 9kHz, 120kHz and 1MHz as well as QP detector are equipped as standard.  Optional 200Hz narrow RBW filter can be added.

For high-speed time domain measurement function which is indispensable for mobile communications, optional 50µs sweep is effective.

By using the double-screen display function, you can specify the rising/falling edge of TDMA waveform and display the magnified image.

The R3132/3162 series spectrum analyzer has ACP and OBW operation function indispensable for evaluating the transmission characteristic of radio system.

With various other functions such as AUTO TUNE, 1Hz resolution frequency counter, dBc/Hz, %AM, and PASS/FAIL test by limit value, the R3132/3162 series can easily perform several types of measurements.

Even for signals which are lower in level than the average noise level, the preamplifier ensures level calibrated, high-accuracy measurement.

For measuring the attenuation characteristic of filters or the frequency characteristic of cables, etc., built-in tracking generator is available as option.  Because the output level can be set in a wide range, it is possible to measure amplifier gain, frequency response, etc.

Easy-operation interface

The high-resolution, 6.5-inch TFT color LCD realizes easy-to-see display of data.  VGA output is provided for external display.

Measured waveform data and setting condition can be saved in or recalled from the internal memory.  Using the floppy disc drive which is equipped as standard, you can manage more number of measurement data.  Text data or Bitmap data on floppy disc are also useful for making documents on a personal computer.

As the hard-copy function is provided to ESC/P. ESC/P-R and PCL,  measured data can be printed out on general-purpose printers.

GPIB and RS232 are equipped as standard.

Hitachi Energy 520ADD01 Input/Output Adapter

520ADD01 Input/Output Adapter

DIN rail mounting base module RTU540

Expansion of wired or bus (WRB) with additional RTU520 I/O modules

Number of modules selectable via front jumper (4 or 8)

Inputs: WRB, ribbon cable

Outputs: WRB, ribbon cable

Applications

I/O adapter 520ADD01 for connecting RTU520 I/O modules to www.honeywell-diver.com  RTU520 or RTU540 communication modules

Features

The I/O adapter connects to the WRB I/O bus (wired OR bus) and automatically generates the address of the connected I/O module within the I/O assembly.

Two green LEDs on the module indicate activity on the I/O bus.

Scanlab Camera Adapters

Camera Adapters

The camera adapter allows process observation of the working plane of the galvanometer scanning head by means of a camera. This makes it suitable for process control during laser processing or for inspection of workpiece position and orientation.

Its mechanical interface can be mounted directly between the scanning head and the laser flange. Four camera placement positions are available for setting up the objective unit, ensuring easy integration into existing or new systems.

In order to observe the working plane, the light from there is decoupled in the camera adapter via a beam splitter and imaged onto the sensor via the camera objective. In contrast, laser radiation is transmitted almost unimpeded on its way to the scanning system.

vision for scan heads

The camera adapter enables camera-based observation of a galvanometer scan head’s working field. Typical applications include process monitoring or determination of a workpiece’s orientation during laser processing.

The camera adapter ensures easy integration into new as well as existing systems. The adapter’s mechanical interfaces enable straight forward mounting between the scan head and laser flange. The system allows 4 alternative orientations of the objective with camera.

To facilitate monitoring of work surfaces, light arriving from the workpiece is decoupled via the adapter’s beam splitter and directed through the camera’s objective onto its imaging chip. The laser beam on the other hand passes practically unattenuated through the beam splitter to the scan system. Optical configurations are available for various wavelengths. Customers can freely select a camera suitable for their requirements and attach it via a C-mount.

The camera adapter is specifically designed for maximum observation field size and its integrated iris diaphragm can be adjusted for optimal imaging quality. In addition,color or interference filters can be installed.

Installation

The camera adapter is mounted between the scan head’s beam entrance and the laser flange (see drawing). The bore holes at the camera adapter’s beam entrance and exit side are compatible with the mounting holes of the scan heads from SCANLAB.

The beam splitter housing can be adjusted so that the camera and objective unit are oriented either up, down or sideways (see drawing).

Principle of Operation

The camera adapter enables camera-based www.honeywell-diver.com observation of a scan head’s working field.

Therefore, a dichroitic beam splitter inside the beam splitter housing decouples light reflected from the illuminated workpiece and arriving the scan head’s beam entrancevia the scan objective and the scan mirrors.

The light is decoupled from the beam path and then directed to the camera. The laserbam on the other hand passes through the beam splitter practically unattenuated.

The decoupled light is directed through the camera objective onto the active imaging

surface of the camera (e.g. CCD chip Threaded in the beam splitter housing, the objective unit contains the camera objective, an iris diaphragm and provisions at the

beam entrance side for mounting a color filter. Camera image sharpness is achieved by manually adjusting the objective unit’s focus ring.

Customers can select an illumination wavelength compatible with the optical specifications of the beam splitter, scan mirrors and other system optics. Observation Field and Resolution The size of the observation field depends on the focal lengths of the scan objective and camera objective and on the camera chip’s size. A scan objective focal length of 163 mm typically produces a camera image field size of approx. 7.5 mm x 10 mm and a maximum optical resolution of around 10 µm (see table). This can be further increased by a 2-fold or 4-fold camera attachment, depending on the pixel resolution of the camera.

IBA ibaLink-SM-128V-i-2o VMEbus Interface Card

Introduction

The ibaLink-SM-128V-i-2o VMEbus Interface Card is a multi-purpose, bi-directional interface card designed for use in VMEbus-compatible PLCs and computer systems.

It can be used for both data acquisition and process monitoring as well as for control system applications such as the ibaLogic SoftPLC.

In the following, the board will be named SM128V to simplify the description.

Key features of the SM128V include :

 1 bi-directional fiber optic link with 64A+64D inputs/outputs per link (channel 1)

 1 unidirectional fiber optic link with 64A+64D outputs per link (channel 2)

 Synchronized transmission of all channels on both links at a rate of 1ms

 Address switch for cascading up to 8 SM128V interface cards on a link

Channel 1

 Compatible interface for ibaFOB-io, ibaFOB -4i (-S), ibaFOB-4o

 Compatible process i/o interface for ibaPADU-8-IO series and ibaNet750-BM series

 5 V power supply from VMEbus

The SM128V is available for VME32 and VME64 systems. www.honeywell-diver.com The card requires a 5 V power supply.

The following non-privileged modes of VME access are possible:

 A24 and A32 in the following VMEbus data formats

 D08 (E0)

 D16

 D32

 A40 MD32 (on special request)

The BLT and MBLT modes as well as the auto-configuration and geo-addressing functions are being prepared, but are not available at this time.

The 2eVME mode has not yet been implemented. Access is only allowed in unprivileged data access mode.

The SM128V is a passive board on the VMEbus, i.e., it will not be actively accessed or interacted with on the VMEbus.

The board uses 256 kbytes of address space on the VMEbus.

Relevant specifications (VITA standards):

 VMEbus

 IEEE 1014-1987

 VME64

 ANSI VITA 1-1994 VME64X; VITA 1.1-19

Remarks Since an analog channel always corresponds to a digital channel in the iba bus concept, an analog value and a digital value are referred to as a channel or a signal for simplicity of description.

Scope of delivery

The goods are checked for completeness and integrity after unpacking.

The scope of delivery includes

 Device ibaLink-SM-128V-i-2o

 Manual

Safety instructions

Specified use

The device is an electrical device. It can only be used for the following applications:

 Automation of industrial systems

 Measurement data logging and analysis

 Application of ibaSoftware products (ibaPDA, ibaLogic, etc.)

The device may only be used for the applications shown in chapter 11. Technical data.

Device description

Connectors and operating elements on the front panel

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