Category: Uncategorized

DESCRIPTION

The Horner APG Thermocouple Input Modules allow thermocouple temperature sensors to be directly

connected to the PLC without external signal processing (transducers, transmitters, etc.).  All analog and

digital processing of the thermocouple signal is performed on the module.  These modules have a

resolution of 0.5°C, and temperature values may be reported to the PLC %AI I/O table in 0.5°C or 0.5°F

increments.  There are four standard resolution models available, with four input channels

(HE693THM409/HE693THM449), and with eight input channels (HE693THM809/HE693THM889).  All

models feature open circuit detection, where the temperature value written to the %AI register goes to its

maximum value upon an open circuit condition.  Two models (HE693THM449 and HE693THM889) also

feature %I alarm bits which energize on an open circuit condition.  The first four %I bits are used for the

HE693THM449 and the first eight %I bits are used for the HE693THM889.

R3860A RF Component Analyzer

R3768/3770 Network Analyzers

Next-generation analyzer family – world’s fastest 5 µs/Point analyzer

Measurement frequency range from 300 kHz to 8 and 20 GHz, depending on model configuration

● World’s fastest 5 µs/point scan rate

2- to 4-port model options available

● System dynamic range of 125 dB (typical)

● Balanced measurements at 20 GHz

Communication services such as cell phones and wireless LANs have increased the use of multiple frequency bands, while at the same time terminals are becoming smaller.

These trends have led to the widespread use of RF modules that combine multiple functions.

In addition, for existing high-frequency components, the ability to perform increasingly complex measurements more efficiently is a critical goal as miniaturization and the wider use of balanced circuits become more widespread.

ADVANTEST has introduced a new generation of analyzers with the flexibility to handle all tasks requiring extremely high accuracy, high speed measurements and superior analysis capabilities.

The R3860A RF Component Analyzer is a new generation of analyzers that provides the flexibility to measure RF modules with a wide range of functions.

Its flexibility covers a wide range of uses from RF modules combining multiple functions to frequency conversion circuits and other active components.

The R3768/3770 network analyzers are high-performance, multi-port analyzers designed with an increased focus on measuring passive components.

Higher frequencies are also supported, with the R3680A*1/3768 supporting frequencies from 300 kHz to 8 GHz and the R3770 supporting frequencies from 300 kHz to 20 GHz.

All models feature software fixturing that enables real-time simulation of virtual matching circuits and normalized impedance conversion in addition to S-parameter analysis.

With the world’s fastest high-speed scanning speed of 5 µs/point, even complex analysis simulations can be completed immediately.

In addition, the multiport models enable software balance simulation and balance parameter analysis.

When used in conjunction with the flexible multi-window and multi-trace capabilities, these models also allow for instant measurement of complex analytical projects.

The large, high-visibility display is a key factor in improving analysis efficiency, as it simultaneously displays multi-port paths in addition to fixture simulation traces.

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 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.

SCANcube series combines a robust and compact design with an attractive price/performance ratio. It is the best choice for both standard and demanding laser applications.

The latest generation of our versatile scan head series is www.cniacs.com now also available with readback functions.

Key Features

• Compact & lightweight design

• Robust, sealed housing

• High dynamic performance

• Large selection of mirror coatings

• Optional: readback function of actual position, temperature and status values

Typical Applications

• Marking tasks

• Semiconductor-industry materials processing

• Microstructuring

• Processing-on-the-fly

• Additive manufacturing (3D printing)

– Medium-range (IR) SFPs with transmission distances up to 10 kilometers

– Suitable for all applications with SFP slots

– Duplex LC connector/single mode fiber

– Monitors optical signal quality/alarms Alerts prior to link loss

Applications

This Intermediate Reach (IR) SFP is a pluggable optical transceiver for fiber optic transmission lines up to 1.5 meters.

transceiver for fiber optic transmission lines up to 10 km.

10 km range. No minimum attenuation required.

This SFP type supports monitoring of receiver

input power as well as transceiver temperature and voltage (via DOM (Digital DOM)).

This SFP type supports monitoring of receiver input power as well as transceiver temperature and voltage (via DOM (Digital Optical Monitoring)).

Mechanical Form Factor and Electrical Interface

are compatible with the Multi-Source Agreement (MSA).

In addition, with this SFP type, optical signal quality and attenuation can be monitored.

quality and attenuation are monitored (e.g., the host supports SNMP). Signal Quality

560NMS34 – Integrated Managed Switch with 1 SDSL Port and 4 Ethernet Ports

Integrated managed Layer 2 switch

4 10/100 BaseT ports (RJ45. electrical, auto-negotiation)

1 SDSL port for copper wiring

Redundant topology via (Rapid) Spanning Tree Protocol (RSTP)

1 RS-232 port for serial protocols

Applications

The RTU component of the 560NMS34 is a managed, plug-and-play Layer 2 switch.

Provides 4 Fast Ethernet auto-negotiation with automatic MDI/X (automatic crossover detection and correction)

RJ45 ports and a two-wire SDSL port for dedicated copper. It can be used with Rack Models 560MPR01. 560MPR03. and 560SFR02.

The switch is used to distribute Ethernet within the station via the RJ45 port.

The switch is used to distribute Ethernet within the station via the RJ45 ports.The SDSL port can be used to connect to stations up to a maximum distance of 20 km (0.8 mm diameter copper cable).

The SDSL port can be used to connect stations over a maximum distance of 20 km (0.8 mm diameter copper cable). The switch provides a redundant topology via (fast) spanning tree protocol. The switch supports VLAN framing and serial data tunneling.

560CVD11 Multimeter with FCD, 4U/4I

Can be set to automatically change the screen of the measurement page every 6 seconds and to display each screen once.

CT/VT interface with 3 voltage and 3 current inputs for direct monitoring of 3-wire 85…. .400 VAC

1 A/5 A input for AC transformers

RTU500 serial interface (RS-485)

Display on the front

Applications

The multimeter 560CVD11 is used to measure analog AC input signals from three independent phases with additional inputs for neutral current and voltage.

The module measures the voltage and current per www.cniacs.com phase directly and generates a series of calculated values.

In addition, the module can detect fault currents and the direction of overcurrent. The modules support configurations with 3 or 4 voltage transformers.

Features

The multimeter is a microprocessor-based intelligent electronic device (IED) for measuring current, voltage, power and energy.

Fault current detection and overcurrent indication are also provided.

The current and voltage inputs are connected via transformers only (see Wiring). The modules support configurations with 3 or 4 voltage transformers and 3 or 4 current transformers.

The calculated values are scaled according to the constants programmed by the user for the current and voltage transformers. All values are updated after 200 ms.

Fault current can be measured up to 20 times the rated current.

The current input can withstand 50 times the rated current for 1 second.

The multimeter is equipped with two binary outputs, which are not supported in the RTU500 series configuration.

Product Description.

The IC609EXP101 unit is an I/O Expansion Unit manufactured by GE Fanuc as part of their product line called Series One Junior.

GE Fanuc no longer manufactures or supports the IC609EXP101 I/O Expansion Unit; however, AX Control may have this product in stock.

The IC609EXP101 I/O Expansion Unit is a rectangular device with multiple ports, indicators, pushbuttons, and an on-surface display.

Like many of the devices in the Series One Junior product line, the IC609EXP101 I/O Expansion Unit has its own internal fuse and fuse protection system to avoid damage to the output circuitry.

The IC609EXP101 I/O Expansion Unit uses microminiature fast blow fuses that are rated at 2 amps.

These fuses are installed into the unit by soldering them directly into the circuit.

Although the IC609EXP101 I/O Expansion Unit has its own built-in fuses, GE Fanuc recommends that external fuses be supplied with the output circuitry.

Units in the Series One Junior catalogue are supplied with built-in indicators and other aids to assist in troubleshooting.

There is also a main diagnostic tool that can be attached to the IC609EXP101 I/O Expansion Unit that acts as a programmer.

This programmer is a key tool for checking the status of the Series One Junior unit, so it is important to have it with you during troubleshooting.

The total weight of the IC609EXP101 I/O Expansion Unit is approximately 3.75 lbs. or 1.70 kg.

• 8 channels

• 16-bit DACs

• Fast settling: 10 µs maximum to ±0.003 percent of FSR

• Buffered voltage output (±10 V at 5 mA)

• Multiplexed programmable outputs on P2 connector for testing analog outputs

• Double-buffered data latches

• Jumper-selectable synchronized update control

• Selectable external update control input or software-controlled strobe provides single update strobe for all DAC outputs

• Front panel fail LED

• High reliability DIN-type output connector

• Outputs set to 0.0 V on power up

— Outputs are automatically disconnected from the field at power up

• Double Eurocard form factor

• Supports VMIC’s analog expansion and Built-in-Test bus (AMXbus™) that interconnects the P2 connectors of various VMIC ADC and DAC boards and expansion multiplexer boards

• Multiplexed programmable outputs for testing analog input multiplexer boards

— Requires VMIC ADC board and AMXbus for Built-In-Test

INTRODUCTION — The VMIVME-4116 

Digital-to-Analog Converter (DAC) Board performs digital-to-analog conversion on 16-bit positive true offset binary or two’s complement coded words, with an analog output range of -10 to +10 V. This provides for a resolution of 305 µV for each digital input of 1 LSB change. The buffered output voltage settles to within 1/2 LSB in 10 µs.

The DAC offers a Digital-to-Analog Integrated Circuit (IC) per channel. A Control and Status Register (CSR) is loaded by the processor and this register controls the functioning of the board. The CSR can be read by the processor at any time. The VMIVME-4116 board functional block diagram is shown in Figure 1. Each of the eight DACs is preceded by double-buffered data latches. 

The data latches allow versatility in the way the DAC analog output may be updated.

There are three methods by which new data can be converted by a DAC. Each method is enabled/disabled by on-board jumpers and is further controlled by a CSR that must be loaded by the user.

FUNCTIONAL CHARACTERISTICS

Compatibility: The VMIVME-4116 Analog Output Board is a standard, double height, printed circuit board which is compatible with the VMEbus specification.

Board Address: The physical address for the board is selected by 12 DIP switches. VMEbus address lines A05 through A15 are decoded for board selection.

VMEbus Access: Address modifier bits are jumper-selectable to support nonprivileged short I/O or supervisory short I/O access. The board is factory configured for supervisory short I/O access. 

Data Transfer: Data can be written to one of the eight Digital-to-Analog Converters (DACs) in bytes or words (via data bits D00 through D15). Bipolar operation(-10 to +10 V output) uses offset binary coding or two’s complement binary coding.