The document describes the Mercury II 5000 Series high-performance encoders. It summarizes that the encoders offer high resolution and accuracy with digital output directly from the sensor. They can be used with tape or glass scales in linear or rotary configurations. The encoders also feature small sensor size, high speeds of up to 5m/s, programmable resolutions, and easy setup using the alignment tool and software.
Micro e systems_mercuryii5800si_datasheetElectromate
The document describes the Mercury II 5800Si high-performance encoder. It offers high resolution down to 1.22nm and accuracy of ±1μm using either laser tape or glass scales in linear or rotary configurations. The encoder has a small 11mm tall sensor with all electronics integrated, digital output directly from the sensor, and software for setup and monitoring. It is versatile, robust, and easy to install.
Micro e systems_mercuryii6000_datasheetElectromate
The document describes the Mercury II 6000 Series high-performance encoders. It offers class-leading resolution up to 1.22nm and accuracy up to ±1μm. The encoders provide digital output signals and work with both tape and glass scales in linear or rotary configurations. They feature low power consumption, small size, easy setup and programmable functions through optional software.
Micro e systems_mercuryii6800si_datasheetElectromate
The document describes the Mercury II 6800Si high-performance encoder. It offers class-leading resolution from 5μm to 1.22nm, accuracy of ±20nm, and can operate at speeds up to 10m/s. The encoder uses a single small sensor compatible with both tape and glass scales in linear or rotary configurations. It provides digital serial output and programmable features through optional software.
Micro e systems_mercuryii1900_datasheetElectromate
The document describes the Mercury II 1900 encoder, which provides high resolution and accuracy for position measurement. It has analog sine and cosine outputs, supports both tape and glass scales, and offers resolutions down to 1.2nm. The encoder has a small sensor size, wide operating temperature range, and high shock and vibration tolerances. Optional software is available for setup, monitoring, and diagnostics to optimize encoder performance.
Micro e systems_mercuryii6000v_datasheetElectromate
The document summarizes the features and specifications of the Mercury II 6000V encoder system. Key points include:
- The system provides high resolution from 5μm to 1.22nm and high accuracy with linear or rotary glass scales.
- It has a small sensor size, low power consumption, broad alignment tolerances, and software for setup and monitoring.
- The system offers versatility in using the same sensor for linear or rotary applications, and can operate at speeds up to 5m/s at high resolutions.
- Optional features include different scale lengths and diameters, as well as software for additional monitoring and setup capabilities.
Micro e systems_mercuryii4000_datasheetElectromate
The document describes the Mercury II 4000 Series high performance encoders. It summarizes that the encoders offer class-leading resolution and accuracy with resolutions up to 1.22nm and accuracy of ±1μm. The same sensor can be used for tape, glass, linear or rotary scales. The encoders provide high speed operation up to 4m/s at 0.1μm resolution. Included software enables setup, monitoring and diagnostics.
Micro e systems_mercuryii1600_datasheetElectromate
The document describes the Mercury II 1600 encoder system, which offers high resolution from 0.5μm to 5μm and high speeds of up to 20m/s. It has a small sensor size, robustness, and uses a cut-to-length tape scale for easy installation. The encoder provides A-quad-B outputs and an index pulse with optional software for setup and diagnostics.
This document provides information on the Mercury TM1000 Analog Output Encoder Systems from Electromate. It describes the key features and specifications of the encoder system, which includes the sensor, double shielded cable, connector, and either a linear or rotary glass scale. The encoder system offers high resolution, accuracy, and flexibility, with standard and customizable scale options. It provides analog sine/cosine output along with other standard and optional features.
Micro e systems_mercuryii5800si_datasheetElectromate
The document describes the Mercury II 5800Si high-performance encoder. It offers high resolution down to 1.22nm and accuracy of ±1μm using either laser tape or glass scales in linear or rotary configurations. The encoder has a small 11mm tall sensor with all electronics integrated, digital output directly from the sensor, and software for setup and monitoring. It is versatile, robust, and easy to install.
Micro e systems_mercuryii6000_datasheetElectromate
The document describes the Mercury II 6000 Series high-performance encoders. It offers class-leading resolution up to 1.22nm and accuracy up to ±1μm. The encoders provide digital output signals and work with both tape and glass scales in linear or rotary configurations. They feature low power consumption, small size, easy setup and programmable functions through optional software.
Micro e systems_mercuryii6800si_datasheetElectromate
The document describes the Mercury II 6800Si high-performance encoder. It offers class-leading resolution from 5μm to 1.22nm, accuracy of ±20nm, and can operate at speeds up to 10m/s. The encoder uses a single small sensor compatible with both tape and glass scales in linear or rotary configurations. It provides digital serial output and programmable features through optional software.
Micro e systems_mercuryii1900_datasheetElectromate
The document describes the Mercury II 1900 encoder, which provides high resolution and accuracy for position measurement. It has analog sine and cosine outputs, supports both tape and glass scales, and offers resolutions down to 1.2nm. The encoder has a small sensor size, wide operating temperature range, and high shock and vibration tolerances. Optional software is available for setup, monitoring, and diagnostics to optimize encoder performance.
Micro e systems_mercuryii6000v_datasheetElectromate
The document summarizes the features and specifications of the Mercury II 6000V encoder system. Key points include:
- The system provides high resolution from 5μm to 1.22nm and high accuracy with linear or rotary glass scales.
- It has a small sensor size, low power consumption, broad alignment tolerances, and software for setup and monitoring.
- The system offers versatility in using the same sensor for linear or rotary applications, and can operate at speeds up to 5m/s at high resolutions.
- Optional features include different scale lengths and diameters, as well as software for additional monitoring and setup capabilities.
Micro e systems_mercuryii4000_datasheetElectromate
The document describes the Mercury II 4000 Series high performance encoders. It summarizes that the encoders offer class-leading resolution and accuracy with resolutions up to 1.22nm and accuracy of ±1μm. The same sensor can be used for tape, glass, linear or rotary scales. The encoders provide high speed operation up to 4m/s at 0.1μm resolution. Included software enables setup, monitoring and diagnostics.
Micro e systems_mercuryii1600_datasheetElectromate
The document describes the Mercury II 1600 encoder system, which offers high resolution from 0.5μm to 5μm and high speeds of up to 20m/s. It has a small sensor size, robustness, and uses a cut-to-length tape scale for easy installation. The encoder provides A-quad-B outputs and an index pulse with optional software for setup and diagnostics.
This document provides information on the Mercury TM1000 Analog Output Encoder Systems from Electromate. It describes the key features and specifications of the encoder system, which includes the sensor, double shielded cable, connector, and either a linear or rotary glass scale. The encoder system offers high resolution, accuracy, and flexibility, with standard and customizable scale options. It provides analog sine/cosine output along with other standard and optional features.
The document provides information on the Mercury TM2000 Smart Encoder Systems from MicroE Systems. It summarizes the key features and specifications of the encoder system, including its small sensor size, high resolution down to 0.078μm, programmable interpolation, robust design, and SmartPrecision electronics module for signal processing and computer interfacing. The encoder systems can be used for both linear and rotary position measurement in industrial automation and motion control applications.
The document describes the Mercury TM3500V vacuum rated smart encoder. It has programmable interpolation in integer steps down to 5 nanometers and is rated for use down to 10-8 Torr vacuum. It has high resolution for both linear and rotary scales. The encoder has small sensor size, easy alignment, and high performance making it well-suited for applications requiring operation in vacuum environments.
The document summarizes the Mercury TM1200 PCB-mount analog encoders from Electromate. The Mercury 1200 encoder has a small sensor that mounts directly onto a printed circuit board. It provides analog sine/cosine and index window outputs and can achieve high resolution for both linear and rotary position measurement through customer interpolation electronics. Key features include small size, broad alignment tolerances, and ability to achieve resolutions as precise as 0.078um for linear or 4.2 million counts per revolution for rotary.
The Mercury 3500 encoder system provides high resolution position measurement down to 5 nanometers in linear applications and 67.1 million counts per revolution in rotary applications. It features the smallest sensor size of any encoder at 1/3 the size of competitors. The system includes an encoder sensor, SmartPrecision electronics module, optional software, and scales from 5mm to 2 meters in length or 12mm to 108mm in diameter.
The document describes the Mercury TM1000V vacuum rated analog encoder. It has a resolution determined by customer electronics of up to 0.078μm for linear scales and up to 4.2 million counts per revolution for rotary scales. The encoder sensor is only 8.4mm high and rated for use down to a vacuum of 10-8 Torr. It includes analog sine and cosine outputs and an index window and requires a SmartPrecision alignment tool for setup.
This document provides information on the Mercury TM3000V vacuum rated smart encoder. It can achieve resolutions down to 0.020um for linear scales and 16.8 million counts per revolution for rotary scales. The encoder sensor is rated for vacuum environments down to 10-8 Torr and features programmable interpolation, compact size, and easy alignment. The document includes details on specifications, outputs, electronics, scales and ordering information.
The document describes two ultra-rugged mobile computer models, the CK70 ATEX and CK71 ATEX. Both are ATEX zone 2/22 certified for use in explosive atmospheres. They are smaller and lighter than competitors' devices. The devices have features like fast imaging engines, long battery life, and device health monitoring. They are designed to improve workers' productivity in challenging environments.
Kedacom - video surveillance product catalog 2016 6.2 bfKEDACOM
This is the latest video surveillance product catalog from KEDACOM featuring the best of breed products and solutions for 2016. We reserve the right to update our catalog with new products or modifying existing ones without prior notice.
Cooled Thermal Camera Thermal PTZ IR Night Vision Thermal PTZ IR Camera Lase...Tim Troxel
Infiniti is leading manufacture of long range day night surveillance cameras for defense & security applications . We design and custom build multi-sensor EO/IR camera systems with Cooled MWIR and uncooled LWIR infrared thermal imaging, HD visible/NIR, Laser IR Illumination, LRF,SWIR cameras with zoom for 24/7 long distance detection, recognition and identification.
Our integrated ruggedized mobile PTZ systems offer Gyro Stablization, Auto Tracking slew to cue, and are MIL-810-STD for shock and vibration, IP 66/67 -40~60c making the clear choice for military, navy and mobile deployment.
This document provides information on several FLIR non-contact voltage detectors, clamp meters, multimeters, thermal imaging cameras, and infrared thermometers. It highlights key features such as integrated flashlights, wireless data transfer capabilities, advanced voltage and frequency measurement modes, touchscreen interfaces, temperature measurement ranges, and ergonomic designs. Various models are suitable for electrical maintenance and inspection applications.
STMicroelectronics offers smart solutions for wearable devicesST_World
The document discusses analog integrated circuits produced by STMicroelectronics that are designed for wearable devices. It describes ST's portfolio of analog components including operational amplifiers, current sensors, audio amplifiers, smart reset ICs, analog switches, battery gas gauges, BlueNRG Bluetooth chip, and MEMS microphones. These components are optimized for applications in consumer fitness/wellness devices, healthcare/medical devices, portable infotainment, and industrial monitoring. The document provides details on the features and specifications of sample products within each component category.
Home Center 2 is a home automation gateway device that connects Z-Wave sensors and devices throughout the home to a central server using WiFi. It integrates different control protocols into a simple interface to easily manage devices from anywhere. Key features include fast processing, low energy use, remote access from phones or web, simple configuration, location tracking, notifications, user permissions, and automatic backups stored on a removable drive.
IRJET- Automated Targeting System for Open Space Military AreaIRJET Journal
This document describes an automated targeting system for open space military areas using an ultrasonic sensor mounted on a servo motor. The system uses an Arduino microcontroller connected to the ultrasonic sensor and servo motor. When the ultrasonic sensor detects an object within its range, it will trigger the buzzer and display the detection on an LCD screen. The system aims to allow military surveillance of open areas using low-cost components like ultrasonic sensors and servos controlled by an Arduino.
Kedacom has release an Intelligent Tracking System to facilitate smart city and safe city initiatives for governments and corporations to enhance their security programs. The system has built-in artificial intelligence algorithms and performs some human cognitive functions. This leads to an increase in Return on Investment and also reduces dependence on manpower and human-related operational errors. Kedacom also ensures that the system is always up to date with timely software releases and technical support.
KEDACOM - Recognitive Tracking System (v4.2) BFKEDACOM
An intelligent video solution system that recognises people and objects using their key characteristics and generates big data analytics for further internal research. We reserve the right to modify the brochure's contents with enhancements in technology without prior notice.
This document discusses wireless technologies used by INETSIS including IEEE 802.15.4 wireless sensor networks (WSNs) and RFID. It describes the key components of WSNs such as sensor nodes that monitor environmental conditions and transmit data to a base station, and how actuators can modify the environment. It also provides an overview of RFID technology and how passive and active RFID tags work with readers to identify and track objects.
The document provides information about the PXV100S-F200-SSI-V19 optical reading head, including:
1) Key specifications such as operating voltage, interface types, reading range, and accuracy.
2) Details on mounting and commissioning the reader, and using the alignment aids and status LEDs.
3) Information on parameterizing the reader and the meaning of status bits and error codes.
Cooled Thermal surveillance PTZ long range Infrared Camera Thermal security PTZ Camera system. EO/IR Multi sensor imaging system with gyro stablization for long range detection recognition & identification vehicle license plates and human faces with ZLID IR infrared laser Illumination & LRF Laser Range finder on Gyro stabilized pan tilt driver with Auto tracking and radar integration. www.infinitioptics.com
24/7 Day Night Long Range Detection & Surveillance
Infiniti’s thermal cameras let you see further than any other night vision technology. Thermal cameras, unlike traditional visible cameras, use heat rather than light to see an object. Humans, animals, and vehicles are very hot in contrast to most backgrounds making trespassers hiding in shadows or bushes easy to spot. Thermal images are also unaffected by bright light and have the ability to see through atmospheric obstructions such as smoke, dust, and light fog. This makes it an ideal technology for a number of applications, including but not limited to surveillance and security, search and rescue, fire, marine and land navigation, and wide area situational assessment
IRJET- Low Powered Radio Frequency and PIR Sensor based Security DeviceIRJET Journal
This document describes the design of a low-powered wireless security device using a radio frequency (RF) transmitter and passive infrared (PIR) sensor. The system is divided into two hardware units - a sensor unit with PIR sensors interfaced to an RF transmitter, and a computational unit with a microcontroller interfaced to an RF receiver and alarm system. The microcontroller-based system detects intruders via the PIR sensors and wirelessly transmits a signal to trigger an alarm. It aims to provide security with low power consumption to operate on batteries for longer. The system was tested and able to detect movement at distances up to 7 meters with components operating between 4-12 volts and power consumption as low as 1.
This document is a product catalog from MicroE Systems that summarizes their range of high-performance encoder products. They offer various types of encoders including performance and value encoders, high-performance encoders, compact encoders, high vacuum encoders, and absolute encoders. Their encoders provide high resolution, accuracy, and value for applications ranging from motion control to metrology. MicroE Systems focuses on innovative optical and electronic designs to create encoders that achieve superior performance while being small, easy to install, and low power.
Micro e systems_mercury3000si_datasheetElectromate
The document describes the Mercury 3000Si smart encoder system. Key details include:
- It has a high speed serial word output with resolutions up to 0.020μm for linear scales and 16.8 million counts per revolution for rotary scales.
- The sensor is very small at 12.7mm x 20.57mm x 8.38mm, making it suitable for tight spaces, and it works for both linear and rotary applications.
- Features include easy bolt-in alignment, serial word output via SPI interface, LED indicators, bidirectional index signal, and resolutions from 5μm to 0.020μm for linear and 6,600 to 16.8 million CPR for rotary
The document provides information on the Mercury TM2000 Smart Encoder Systems from MicroE Systems. It summarizes the key features and specifications of the encoder system, including its small sensor size, high resolution down to 0.078μm, programmable interpolation, robust design, and SmartPrecision electronics module for signal processing and computer interfacing. The encoder systems can be used for both linear and rotary position measurement in industrial automation and motion control applications.
The document describes the Mercury TM3500V vacuum rated smart encoder. It has programmable interpolation in integer steps down to 5 nanometers and is rated for use down to 10-8 Torr vacuum. It has high resolution for both linear and rotary scales. The encoder has small sensor size, easy alignment, and high performance making it well-suited for applications requiring operation in vacuum environments.
The document summarizes the Mercury TM1200 PCB-mount analog encoders from Electromate. The Mercury 1200 encoder has a small sensor that mounts directly onto a printed circuit board. It provides analog sine/cosine and index window outputs and can achieve high resolution for both linear and rotary position measurement through customer interpolation electronics. Key features include small size, broad alignment tolerances, and ability to achieve resolutions as precise as 0.078um for linear or 4.2 million counts per revolution for rotary.
The Mercury 3500 encoder system provides high resolution position measurement down to 5 nanometers in linear applications and 67.1 million counts per revolution in rotary applications. It features the smallest sensor size of any encoder at 1/3 the size of competitors. The system includes an encoder sensor, SmartPrecision electronics module, optional software, and scales from 5mm to 2 meters in length or 12mm to 108mm in diameter.
The document describes the Mercury TM1000V vacuum rated analog encoder. It has a resolution determined by customer electronics of up to 0.078μm for linear scales and up to 4.2 million counts per revolution for rotary scales. The encoder sensor is only 8.4mm high and rated for use down to a vacuum of 10-8 Torr. It includes analog sine and cosine outputs and an index window and requires a SmartPrecision alignment tool for setup.
This document provides information on the Mercury TM3000V vacuum rated smart encoder. It can achieve resolutions down to 0.020um for linear scales and 16.8 million counts per revolution for rotary scales. The encoder sensor is rated for vacuum environments down to 10-8 Torr and features programmable interpolation, compact size, and easy alignment. The document includes details on specifications, outputs, electronics, scales and ordering information.
The document describes two ultra-rugged mobile computer models, the CK70 ATEX and CK71 ATEX. Both are ATEX zone 2/22 certified for use in explosive atmospheres. They are smaller and lighter than competitors' devices. The devices have features like fast imaging engines, long battery life, and device health monitoring. They are designed to improve workers' productivity in challenging environments.
Kedacom - video surveillance product catalog 2016 6.2 bfKEDACOM
This is the latest video surveillance product catalog from KEDACOM featuring the best of breed products and solutions for 2016. We reserve the right to update our catalog with new products or modifying existing ones without prior notice.
Cooled Thermal Camera Thermal PTZ IR Night Vision Thermal PTZ IR Camera Lase...Tim Troxel
Infiniti is leading manufacture of long range day night surveillance cameras for defense & security applications . We design and custom build multi-sensor EO/IR camera systems with Cooled MWIR and uncooled LWIR infrared thermal imaging, HD visible/NIR, Laser IR Illumination, LRF,SWIR cameras with zoom for 24/7 long distance detection, recognition and identification.
Our integrated ruggedized mobile PTZ systems offer Gyro Stablization, Auto Tracking slew to cue, and are MIL-810-STD for shock and vibration, IP 66/67 -40~60c making the clear choice for military, navy and mobile deployment.
This document provides information on several FLIR non-contact voltage detectors, clamp meters, multimeters, thermal imaging cameras, and infrared thermometers. It highlights key features such as integrated flashlights, wireless data transfer capabilities, advanced voltage and frequency measurement modes, touchscreen interfaces, temperature measurement ranges, and ergonomic designs. Various models are suitable for electrical maintenance and inspection applications.
STMicroelectronics offers smart solutions for wearable devicesST_World
The document discusses analog integrated circuits produced by STMicroelectronics that are designed for wearable devices. It describes ST's portfolio of analog components including operational amplifiers, current sensors, audio amplifiers, smart reset ICs, analog switches, battery gas gauges, BlueNRG Bluetooth chip, and MEMS microphones. These components are optimized for applications in consumer fitness/wellness devices, healthcare/medical devices, portable infotainment, and industrial monitoring. The document provides details on the features and specifications of sample products within each component category.
Home Center 2 is a home automation gateway device that connects Z-Wave sensors and devices throughout the home to a central server using WiFi. It integrates different control protocols into a simple interface to easily manage devices from anywhere. Key features include fast processing, low energy use, remote access from phones or web, simple configuration, location tracking, notifications, user permissions, and automatic backups stored on a removable drive.
IRJET- Automated Targeting System for Open Space Military AreaIRJET Journal
This document describes an automated targeting system for open space military areas using an ultrasonic sensor mounted on a servo motor. The system uses an Arduino microcontroller connected to the ultrasonic sensor and servo motor. When the ultrasonic sensor detects an object within its range, it will trigger the buzzer and display the detection on an LCD screen. The system aims to allow military surveillance of open areas using low-cost components like ultrasonic sensors and servos controlled by an Arduino.
Kedacom has release an Intelligent Tracking System to facilitate smart city and safe city initiatives for governments and corporations to enhance their security programs. The system has built-in artificial intelligence algorithms and performs some human cognitive functions. This leads to an increase in Return on Investment and also reduces dependence on manpower and human-related operational errors. Kedacom also ensures that the system is always up to date with timely software releases and technical support.
KEDACOM - Recognitive Tracking System (v4.2) BFKEDACOM
An intelligent video solution system that recognises people and objects using their key characteristics and generates big data analytics for further internal research. We reserve the right to modify the brochure's contents with enhancements in technology without prior notice.
This document discusses wireless technologies used by INETSIS including IEEE 802.15.4 wireless sensor networks (WSNs) and RFID. It describes the key components of WSNs such as sensor nodes that monitor environmental conditions and transmit data to a base station, and how actuators can modify the environment. It also provides an overview of RFID technology and how passive and active RFID tags work with readers to identify and track objects.
The document provides information about the PXV100S-F200-SSI-V19 optical reading head, including:
1) Key specifications such as operating voltage, interface types, reading range, and accuracy.
2) Details on mounting and commissioning the reader, and using the alignment aids and status LEDs.
3) Information on parameterizing the reader and the meaning of status bits and error codes.
Cooled Thermal surveillance PTZ long range Infrared Camera Thermal security PTZ Camera system. EO/IR Multi sensor imaging system with gyro stablization for long range detection recognition & identification vehicle license plates and human faces with ZLID IR infrared laser Illumination & LRF Laser Range finder on Gyro stabilized pan tilt driver with Auto tracking and radar integration. www.infinitioptics.com
24/7 Day Night Long Range Detection & Surveillance
Infiniti’s thermal cameras let you see further than any other night vision technology. Thermal cameras, unlike traditional visible cameras, use heat rather than light to see an object. Humans, animals, and vehicles are very hot in contrast to most backgrounds making trespassers hiding in shadows or bushes easy to spot. Thermal images are also unaffected by bright light and have the ability to see through atmospheric obstructions such as smoke, dust, and light fog. This makes it an ideal technology for a number of applications, including but not limited to surveillance and security, search and rescue, fire, marine and land navigation, and wide area situational assessment
IRJET- Low Powered Radio Frequency and PIR Sensor based Security DeviceIRJET Journal
This document describes the design of a low-powered wireless security device using a radio frequency (RF) transmitter and passive infrared (PIR) sensor. The system is divided into two hardware units - a sensor unit with PIR sensors interfaced to an RF transmitter, and a computational unit with a microcontroller interfaced to an RF receiver and alarm system. The microcontroller-based system detects intruders via the PIR sensors and wirelessly transmits a signal to trigger an alarm. It aims to provide security with low power consumption to operate on batteries for longer. The system was tested and able to detect movement at distances up to 7 meters with components operating between 4-12 volts and power consumption as low as 1.
This document is a product catalog from MicroE Systems that summarizes their range of high-performance encoder products. They offer various types of encoders including performance and value encoders, high-performance encoders, compact encoders, high vacuum encoders, and absolute encoders. Their encoders provide high resolution, accuracy, and value for applications ranging from motion control to metrology. MicroE Systems focuses on innovative optical and electronic designs to create encoders that achieve superior performance while being small, easy to install, and low power.
Micro e systems_mercury3000si_datasheetElectromate
The document describes the Mercury 3000Si smart encoder system. Key details include:
- It has a high speed serial word output with resolutions up to 0.020μm for linear scales and 16.8 million counts per revolution for rotary scales.
- The sensor is very small at 12.7mm x 20.57mm x 8.38mm, making it suitable for tight spaces, and it works for both linear and rotary applications.
- Features include easy bolt-in alignment, serial word output via SPI interface, LED indicators, bidirectional index signal, and resolutions from 5μm to 0.020μm for linear and 6,600 to 16.8 million CPR for rotary
Micro e systems_mercury3000si_dual_axis_averager_datasheetElectromate
This document describes the Mercury 3000Si Dual Axis Averager encoder system which provides motion control feedback by averaging the readings from two encoders. It has high resolution from 5um to 0.020um for linear scales and up to 16.8 million counts per revolution for rotary scales. The system averages the two encoder readings to eliminate eccentricity errors and increase accuracy for rotary positioning applications. The small sensor size and broad alignment tolerances make it easy to install and integrate into motion control systems.
The document describes the Mercury TM1500 Digital Output Encoder Systems. Key details include:
- The encoder system includes the sensor, double shielded cable, connector, and linear or rotary glass scale.
- The sensor is small at 8.4mm x 12.7mm x 20.6mm and lightweight at 1.6g.
- Resolutions range from 5um to 0.50um for linear scales and 6,600 to 655,000 counts per revolution for rotary scales.
- The encoder has generous alignment tolerances and standoff clearance for easy installation in tight spaces.
This document summarizes the specifications of the Mercury TM1500V Vacuum Rated Digital Output Encoders. It describes the encoder sensor as being the size of a dime and capable of resolutions down to 0.5 microns. It also lists the encoder's key features such as a digital A-quad-B output signal, vacuum rating of 10-8 Torr, and factory set interpolation resolutions between 5 microns and 0.5 microns for linear scales and 6,600 CPR to 655,000 CPR for rotary scales. The document provides tables comparing the encoder's performance specifications to competing encoder brands.
The company is engaged in designing and manufacturing encoders for precise position and motion control. What started four decades ago as an offshoot of Machine Tool Manufacturing , is now a world class company offering solutions globally in precision measurement. Having Customer focus and team work as core values, EMS has innovated and continually improved their products to offer an optimal solutions to changing markets.
Today, we are an ISO 9001:2015 company with state of the art factory having integral facilities for everything from design to delivery under one roof.
Micro e systems_mercury3500si_datasheetElectromate
The document describes the Mercury 3500Si smart encoder system, which provides high-speed serial word output with resolutions up to 5 nanometers. Key features include a small sensor size, easy alignment, high-speed serial interface, various resolution and accuracy options for both linear and rotary applications, and integrated SmartPrecision electronics for signal processing and interfacing.
The document describes the Mercury TM2000V vacuum rated smart encoder. It has the following key features:
- Programmable interpolation to resolutions as small as 0.078um for linear scales and 4.2 million counts per revolution for rotary scales.
- Rated for use in high vacuum environments down to 10-8 Torr.
- Smallest sensor size of any encoder, only 1/3 the size of competitors' sensors.
- Easy bolt-in alignment and setup using LED indicators.
The document describes the Mercury 3000 smart encoder system from MicroE Systems. It provides high resolution position measurement down to 0.020μm for linear scales and 16.8 million counts per revolution for rotary scales. The Mercury 3000 features the smallest sensor size, easiest alignment, and best noise immunity compared to competing encoder systems. It includes programmable interpolation, LED indicators for setup, and SmartPrecision electronics for interfacing.
The document provides information on the Mercury TM1500P PCB-Mount Digital Encoders from Electromate, including specifications for the encoders, available scales, and ordering information. The Mercury 1500P encoder is a small, digital output encoder designed for mounting directly onto printed circuit boards. It is available with either linear or rotary sensing and offers resolutions down to 0.5 microns with various scale length and diameter options.
Micro e systems_mercury3000vsi_datasheetElectromate
The document describes the Mercury TM3000VSi vacuum rated smart encoder. Key details include:
- It has high resolution down to 0.020μm for linear and 16.8 million counts per revolution for rotary. Accuracy is ±1μm for linear and up to ±2.1 arc-seconds for rotary.
- The encoder can operate in high vacuum down to 10-8 Torr and has a small sensor size. It provides serial word output in SPI format for high speed.
- The encoder has easy alignment and the smallest sensor size of 1/3 the size of competitors. It also has generous standoff clearance and tolerance for simpler mechanical integration.
Micro e systems_mercury3500vsi_datasheetElectromate
The document provides information about the Mercury TM3500VSi vacuum rated smart encoder system from Electromate. Key details include:
- The Mercury 3500VSi encoder has a high speed serial output, resolution down to 5 nanometers, and is rated for use down to 10-8 Torr vacuum.
- It has the smallest sensor size of any encoder at only 1/3 the size of competitors. This small size allows it to fit into tight spaces.
- The encoder has easy bolt-in alignment, advanced electronics, vacuum compatible materials, and bake out rating to 150C for use in vacuum applications.
The OPSTM encoder system delivers high performance positioning with high resolution, accuracy and low error rates. It uses MicroE's patented optical design and features built-in interpolation and automatic gain control. The encoder can be configured with optical limits to reduce cabling and works with MicroE's linear tape and glass scales. It has flexible mounting options and a dual-purpose LED that simplifies installation while providing a health indicator.
The document describes an efector dualis vision sensor that can solve a variety of inspection and error-proofing applications throughout the manufacturing process. It has a compact CMOS image sensor and fast image capture and processing capabilities. The sensor includes integrated lighting, evaluation electronics, and an industrial housing. It can be easily configured via an Ethernet interface and Setup Wizard software. Example applications discussed include part verification, orientation detection, sortation, and detecting part presence or absence. The sensor provides a simpler and more cost-effective solution than traditional vision systems or sensor clusters.
The document describes the LN3015 and LN3040 three-axis flaw detection systems from Beta LaserMike. The systems can detect small lumps and neckdowns in products with diameters up to 15mm and 40mm, respectively. They use three optical axes spaced at 60 degrees to provide more precise detection of flaws compared to two-axis systems. The LN3015 can detect flaws as small as 0.02mm while the LN3040 can detect flaws down to 0.05mm.
Electronica Mechatronic Systems (EMS) is an Indian company established in 1980 that designs and manufactures encoders for precise position and motion control. Starting as a small company, EMS has grown to be a leading global supplier of encoders and metrology products through a focus on quality, teamwork and innovation. EMS offers a variety of optical and magnetic linear and rotary encoders, as well as digital readout systems suitable for different industrial applications such as machine tools, metrology and presses.
The document summarizes Topcon's new ES Series total stations, which feature advanced technology like long battery life up to 36 hours, fast EDM measurements under 1 second, 500m non-prism range, and exclusive LongLink wireless communication up to 300m. The instruments have a rugged IP66 design, advanced angle accuracy as good as 1 arc-second, and come with components like batteries, charger, and carrying case. Topcon also introduces their new TSshield system which allows disabling a lost or stolen instrument remotely and receiving software/firmware updates wirelessly.
ALAM SURVEY
Contac Person : Asep Survey
Phone Office : 021. 95918297
Fax : 021. 58405766
Simpati : 082119696710
XL : 087809762415
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email : asepmulyana120@yahoo.com
website :http://wwwalamsurvey.com
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@ SURVEYING INSTRUMENTS TOTAL STATION
JUAL TOTAL STATION NIKON DTM 322(3)2 DISPLAY
JUAL TOTAL STATION NIKON DTM 322(5)1 DISPLAY
JUAL TOTAL STATION TOPCON GTS 235N
JUAL TOTAL STATION TOPCON GTS 105N
JUAL TOTAL STATION TOPCON GTS 102
JUAL TOTAL STATION TOPCON GTP 3105N
JUAL TOTAL STATION TOPCON GTS 233N
Total Station Topcon ES 101
Total Station Topcon ES 102
Total Station Topcon ES 103
Total Station Topcon ES 105
Total Station Topcon OS 101
Total Station Topcon OS 102
Total Station Topcon OS 103
Total Station Topcon OS 105
Total Station Sokkia Set FX 101
Total Station Sokkia Set FX 102
Total Station Sokkia Set FX 103
Total Station Sokkia Set FX 105
Total Station Sokkia CX 101 ,
Total Station Sokkia CX 102,
Total Station Sokkia CX 103,
Total Station Sokkia CX 105,
Total Station Sokkia CX 107,
JUAL TOTAL STATION NIKON NIVO 2C(2 DISPLAY, 2)
JUAL TOTAL STATION NIKON NIVO 3C(2 DISPLAY, 3)
JUAL TOTAL STATION NIKON NIVO 5C(2 DISPLAY, 5)
JUAL TOTAL STATION NIKON NIVO 2M(1 DISPLAY, 2)
JUAL TOTAL STATION NIKON NIVO 3M(1 DISPLAY, 3)
JUAL TOTAL STATION NIKON NIVO 5M(1 DISPLAY, 5)
@ SURVEYING INSTRUMENTS THEODOLITE
JUAL THEODOLITE NIKON NE-100(10)
JUAL THEODOLITE NIKON NE-101(7)
JUAL THEODOLITE NIKON NE-102(2)
JUAL THEODOLITE SOKKIA DT-620(7)
JUAL THEODOLITE SOKKIA DT-520(5)
JUAL THEODOLITE SOKKIA DT-520A(5)
JUAL THEODOLITE SOKKIA DT-220(2)
JUAL THEODOLITE TOPCON DT-209(9)
JUAL THEODOLITE TOPCON DT-209L(9)
JUAL THEODOLITE TOPCON DT-207(7)
JUAL THEODOLITE TOPCON DT-207L(7)
JUAL THEODOLITE TOPCON DT-205(5)
JUAL THEODOLITE TOPCON DT-205L(5)
JUAL THEODOLITE TOPCON DT-202(2)
JUAL THEODOLITE TOPCON DT-202L(2)
JUAL THEODOLITE HORIZON ET-1005(5)
JUAL THEODOLITE HORIZON ET-1002(2)
@ SURVEYING INSTRUMENTS WATERPAS
JUAL AUTOMATIC LEVEL NIKON AP-8 (1.5MM)
JUAL AUTO
The document summarizes Topcon's new ES Series total stations, which feature advanced technology like long battery life up to 36 hours, fast EDM measurements under 1 second, 500m non-prism range, and exclusive LongLink wireless communication allowing remote operation up to 300m. The instruments also have advanced security with new TSshield technology that can disable a lost or stolen unit remotely. The ES Series offers high-accuracy angle measurements down to 1 arc-second depending on the model.
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- LongLink technology providing wireless communication up to 300m for use with a data collector on a prism pole.
- A dual display, rugged design, and long 36 hour battery life.
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Micro e systems_mercuryii5000_datasheet
1. Sold & Serviced By:
Mercury II™ 5000 Series
High Performance Encoders with Digital Output from the Sensor
High Resolution and Accuracy with Tape or Glass, Linear or Rotary Scales
Resolution
Linear: 5μm to 1.22nm
Rotary: 20k to 268M CPR
Accuracy
Tape Scale: ± 5μm/m
Glass Scales:
Linear: ± 1μm available
± 1.5μm to ± 5μm standard
Rotary: Up to ± 2.1 arc-sec
Outputs
A-quad-B, Index Pulse,
Dual Limits, and Alarm
Scales
Same Sensor for Tape or Glass,
Linear or Rotary
Page 1
The new Mercury II 5000 Encoder Series represents a breakthrough in performance, offering class-leading
resolution and accuracy, digital output from the sensor, the smallest sensor size, unmatched versatility, robustness,
smart programmable features, and easy installation.
MicroE Systems revolutionized encoder technology with the original
Mercury encoder family. Smaller, faster, and smarter than anything
before, it set the standard for innovation. Now Mercury II, MicroE
System‘s newest family of reflective incremental encoders, takes
another giant step forward by giving you “best-in-class” performance,
unparalleled versatility, superior robustness, and unmatched ease of
use. You get all of this from a single encoder system.
System & Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Pg. 1-6
Sensor Electronics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Pg. 7-8
SmartPrecision II Software . . . . . . . . . . . . . . . . . . . . . . . . . . . .Pg. 9-10
Scales . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Pg. 11-15
Ordering Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Pg. 16-18
System Features at a Glance
• High-resolution interpolated digital output directly from the sensor;
resolution from 5μm to 1.2nm
• Small sensor - 11mm tall sensor fits tight spaces
• Faster - up to 5m/s at 0.1μm resolution
• Smarter - programmable resolution in integer steps
• Cut-to-length laser tape scale comes on dispensers up to 30m
• Linear glass scales for high accuracy
• Stick-on optical index and left / right limits
• Bi-directional optical index is repeatable to 1LSB
• Low power consumption
• High tolerance to scale contamination
• Broadest alignment tolerances and pushbutton setup with LEDs
• Differential outputs for high reliability in high EMI environments
• Software for setup, programmable features, monitoring
and diagnostics
• RoHS and CE compliant
Optional Features
• Tape scale length - up to 30m per dispenser
• Glass scale length or diameter:
Linear lengths from 10mm to 1m or custom
Rotary diameters from 44mm
to 121mm or custom
• Sensor cable length of 1m, 3m,
5m, or custom
• Accessory Kits for scale
installations
• SmartPrecision™ II Software
Mercury II: The Next Generation
High-Resolution Digital Output Directly from the Sensor
Table of Contents
ELECTROMATE
Toll Free Phone (877) SERVO98
Toll Free Fax (877) SERV099
www.electromate.com
sales@electromate.com
2. System Configurations
Standard and Optional Equipment
Mercury II™ 5000 Series Smart Encoder Systems
Standard Equipment
Page 2
Sold & Serviced By:
Mercury II 5000 Series
Optional Equipment
SmartPrecision II Software
The software performs setup, monitoring and
diagnostics, includes displays for encoder
output, multiple data plots, and is used for
programmable functions. It is built into the
ATMII5000 Alignment Tool; use is optional.
See Page 9 for details. Requires Ethernet cable.
Mercury II 5000 Series
Installation Accessories
Index and Limit Marker Set
Tape Scale Applicator Tool
Tape Scale Shears
Encoder Sensor
Same sensor for linear tape,
linear glass, or rotary glass
scales. All electronics,
including interpolation, are in
the sensor.
Sensor Cable
The standard high flex life cable is
double shielded and available in
lengths of 1m, 3m, 5m, or custom.
SmartPrecision™ Alignment Tool
for Setup − ATMII5000
Provides fast and easy sensor set up.
Includes setup and limit indicator LEDs,
pushbutton index and limits setup, built-in
SmartPrecision II Software (use is optional
– not required for setup), Ethernet
interface, and AC/DC power supply (not
shown). The Alignment Tool is not for use
while in servo control.
Connector
RS-422 compliant
15 pin standard
D-sub connector
ELECTROMATE
Toll Free Phone (877) SERVO98
Toll Free Fax (877) SERV099
www.electromate.com
sales@electromate.com
3. Sold & Serviced By:
• Adhesive-mount laser tape scale
supplied in continuous lengths for
cut-to-length convenience and
inventory savings; mounts on
virtually any surface - metals,
granite, glass, composites,
or ceramics
• Stick-on optical index and limit
markers can be placed anywhere
they are required, are easy to
apply, and require no adjustment;
markers work on both laser tape
and linear glass scales
• Convenient tape scale applicator tool insures consistency and
speeds installation
• Low power consumption - only 180mA with A, B, I, LL and RL
outputs terminated
• Robustness features include all differential digital outputs, all
digital signals from the sensor, and double-shielded cabling
for superior EMI/RFI immunity; scale contamination resistance
insures encoder operation even with fingerprints, oil, dust and
other forms of contamination
• Fail-safe dual optical limits have differential outputs and reduce
motion system cabling; limit markers fit right on the 6mm wide
laser tape scale for maximum space savings
• Included software makes
setup, motoring and
diagnostics easy; Ethernet
connectivity allows you to
use any computer
Page 3
MII 5000 System Features at a Glance
The Mercury II™ 5000 Series is built on the field-proven Mercury technology platform. Known for being smaller, smarter and faster,
Mercury II builds on the original Mercury™ series and adds increased performance, versatility, robustness, and ease-of-use.
Mercury II 5000's features include:
• Small, low-mass sensor with ultra low Z-height fits in compact
motion systems
• All electronics are in the sensor for maximum space savings,
system reliability and ease of integration; a variety of connector
options are possible, including use of your own connector
• Superior resolution and accuracy - resolutions up to 1.22nm
(linear), 268M CPR (rotary); short-travel accuracy of ± 20nm
typical (linear glass scales); up to ± 1μm (linear glass scales
up to 130mm long)
• High-speed operation - up to 5m/s at 0.1μm resolution
• Versatility - one sensor works with laser tape or glass scales,
linear or rotary
• Broad sensor alignment tolerances, and the alignment tool’s
built-in red/yellow/green setup LEDs and pushbutton setup,
make setup fast and eliminate ancillary setup instruments
ELECTROMATE
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4. Smallest Sensor, Lowest System Height, Smallest Tape
Scale System, Broader Alignment Tolerances, and More
Why Mercury II™ Encoders Make It Easier To Design High Performance Into Your Equipment
Mercury II Can Reduce System Size and Cost
Mercury II 5000’s system height with tape scale is 22% shorter than competitive
encoders with digital output from the sensor, making it easier to fit into your design.
This reduction can also cut motion system weight and cost by allowing the use of
smaller motors and stages. Mercury II 5000’s optical index and limit markers are
placed within the 6mm width of the tape scale, saving even more space by
eliminating external index and limit magnets.
Page 4
Mechanical Dimension Comparison*
Mercury II 5000 Brand X Brand Y Mercury II vs.
with Tape Scale Best Competitor
System height 12.4mm 18.2mm 15.8mm 22% better
Sensor Z height 11.0mm 12mm 14.8mm 9% better
Standoff tolerance ± 0.15mm ± 0.1mm ± 0.1mm 50% better
Tape scale width** 6.0mm 22.0mm 15.3mm 155% better
*Based on published specifications for encoders with digital output from the sensor
**Tape scale system width including index and limits
Eliminate the Frustration of Touchy Encoder Alignment
With Mercury’s patented PurePrecision™ optics, you can push the sensor against your
reference surface, tighten the screws and you’re finished. Try that with Brand X or Y.
This performance is possible thanks to relaxed alignment tolerances, particularly in the
theta Z axis. Mercury II offers a ± 2° sweet spot – that’s a 300% improvement over the
best competitive encoder. And that will result in dramatic savings in manufacturing costs.
No other commercially available encoder is easier to align, easier to use, or easier to
integrate into your designs.
Lowest System Height
Mercury II 5000
Brand X
Brand Y
Theta Z Alignment Tolerance
Smallest Tape Scale System
22mm
15.3mm
6.0mm
Alignment Tolerance Comparison*
Mercury II*** Brand X Brand Y Mercury II vs.
Best Competitor
theta Z ± 2.0° ± 0.006° ± 0.5° Mercury is 300% better
theta Y ± 1.0° unspecified ± 1.0°
theta X ± 1.0° ± 0.1° ± 1.0°
*Based on published specifications for encoders with digital output from the sensor
***Measured at a constant temperature for one axis at a time with all other axes at their ideal positions
± 2°
± 0.006° ± 0.5°
12.4 mm
18.2mm
15.8mm
Lowest Power Consumption
MII 5000 uses advanced electronics that are 100% in the sensor, giving MII 5000 the
lowest power consumption of any high-performance digital-output encoder:
• Lowest heat generation / dissipation
• Cost and size savings in the controls / drives
• More system design flexibility
MII 5000
Brand Z
Brand Y
Brand X
POWER CONSUMPTION (mA)
0 50 100 150 200 250 300 350
Note: all encoders shown with A, B and I terminated.
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5. Linear - 20μm grating pitch
Maximum
Interpolation Resolution Maximum Speed*
x 4 5.000μm/count 10000mm/sec
x 10 2.000μm/count 10000mm/sec
x 20 1.000μm/count 10000mm/sec
x 40 0.500μm/count 10000mm/sec
x 80 0.250μm/count 10000mm/sec
x 100 0.200μm/count 10000mm/sec
x 200 0.100μm/count 5000mm/sec
x 400 0.050μm/count 2500mm/sec
x 1000 20.0nm/count 1000mm/sec
x 2000 10.0nm/count 500mm/sec
x 4000 5.00nm/count 250mm/sec
x 8000 2.50nm/count 125mm/sec
x 16384 1.22nm/count* 61mm/sec
Model
5800 5700 5500
† Value rounded for readability; use the formula [20μm/interpolation multiplier] to calculate the exact resolution in units of μm/count.
Rotary - 20μm grating pitch
Rotary Fundamental Interpolation
Glass Scale Resolution Note: The range of available values is x4
Diameter to x16384 in integer steps; example values below.
Model
5800
5700
5500
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44.45mm 5000 CPR x4 x20 x40 x400 x1000 x4000 x16384
interpolated resolution (CPR) 20000 100000 200000 2000000 5000000 20000000 81920000
interpolated resolution (arc-sec/count)** 64.8 12.96 6.48 0.648 0.259 0.0648 0.01582
interpolated resolution (μrad/count)** 314 62.8 31.4 3.14 1.257 0.314 0.0767
maximum speed* (RPM) 6000 6000 6000 1500 600 150 36.6
63.50mm 8192 CPR x4 x20 x40 x400 x1000 x4000 x16384
interpolated resolution (CPR) 32768 163840 327680 3276800 8192000 32768000 134217728
interpolated resolution (arc-sec/count)** 39.6 7.91 3.96 0.396 0.1582 0.0396 0.00966
interpolated resolution (μrad/count)** 191.7 38.3 19.17 1.917 0.767 0.1917 0.0468
maximum speed* (RPM) 3660 3660 3660 915 366 91.5 22.3
120.65mm 16384 CPR x4 x20 x40 x400 x1000 x4000 x16384
interpolated resolution (CPR) 65536 327680 655360 6553600 16384000 65536000 268435456
interpolated resolution (arc-sec/count)** 19.78 3.96 1.978 0.1978 0.0791 0.01978 0.00483
interpolated resolution (μrad/count)** 95.9 19.17 9.59 0.959 0.383 0.0959 0.0234
maximum speed* (RPM) 1830 1830 1830 457 183.1 45.7 11.17
Page 5
MII 5000 System Specifications
Resolution and Maximum Speed Tables
Mercury II™ 5000 Series systems have programmable interpolation from x4 to x16384 in integer steps. Below is a table of sample values.
For applications requiring up to 10m/s at full resolution, use the MII5800Si with high speed serial interface.
*Maximum speed produces an encoder quadrature output of 50 million states per second (12.5MHz). See p. 8 for additional output frequencies. Maximum speeds
shown above will be reduced if a lower quadrature output frequency is selected.
**Resolution values shown are approximate. To calculate exact resolution values, convert from CPR (Counts Per Revolution) to the desired units.
To calculate desired rotary interpolation multiplier, use the following equation:
Interpolation Multiplier = Desired Resolution (CPR)/Fundamental Scale Resolution (CPR).
Note: Specifications assume XOR function which is available in all standard controllers.
6. MII 5000 System Specifications
Scales:
• Cut-to-length PurePrecision™ laser tape scale - available in continuous
lengths up to 30m
• Linear glass scales for high accuracy
• Rotary glass scales for rotary applications
Grating Period 20μm
Signal Period 20μm
System Resolution 5μm - 0.00122μm* in integer interpolation steps
Page 6
(factory set or user programmed using included
SmartPrecision™ II Software)
*Value rounded for readability; use the formula [20μm/interpolation multiplier]
to calculate the exact resolution in units of μm/count.
Linear accuracy**
Laser Tape Scale Glass Scales
Short - travel ± 30nm typical over any ± 20nm typical over any
Accuracy 20μm movement 20μm movement
Long- travel ± 5μm/m after two - High accuracy grade:
Accuracy point linearization ≤ ±1μm for scales
in the customer’s up to 130mm
controller ≤ ±2μm for scales
from 130mm to 1m
Standard accuracy grade:
≤ ±1.5μm for scales
up to 130mm
≤ ±5μm for scales
from 130mm to 1m
**Maximum error over the specified movement when compared to a NIST-traceable
laser interferometer standard, used at room temperature.
Rotary Accuracy* Scale O.D. Microradians Arc-Seconds
44.45mm ± 38 ± 7.8
63.50mm ± 19 ± 3.9
120.65mm ± 10 ± 2.1
*Based on ideal scale mounting concentricity
Index: stick-on optical marker can be placed anywhere; bi-directional,
full speed. Note: after power up, the index mark must be passed once
at ≤ 1 m/s for proper operation.
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Limits: separate left and right limits with stick-on markers
H: 11.03mm
W: 13.50mm
L: 38.50mm
Operating and Electrical Specifications
Power Supply: 5VDC ±5% @ 140mA (No outputs terminated)
@ 180mA (A, B, I, and both limits
terminated)
Temperature
Operating: 0 to 70°C
Storage: -20 to 85°C
Humidity: 10 - 90% RH non-condensing
EMI: CE Compliant
Shock: 300G 0.5 ms half sine (Sensor)
Vibration: 30G @ 17Hz
Sensor Weight: 8 g (Sensor without cable)
Cable: Double Shield
Maximum length: 10m (contact MicroE Systems for
applications >5m)
Diameter: 4.2mm
Flex Life: 20 x 106 cycles @ 20mm bending radius
Reliability Information
5 year Expected Reliability: >99.8% under normal operating conditions.
System
Sensor Size
NOTE:
Sensor shown with tape scale Refer to the Mercury II™ 5000 interface drawings for additional dimensional details and important notes.
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Page 7
Mercury II™ 5000 Sensor Electronics
The Mercury II™ 5000 series encoders have all electronics built
into the sensor. This compact, versatile sensor includes the
following features:
• Programmable interpolation level and output bandwidth
• Accuracy optimization - sensor signals are automatically
optimized to improve system accuracy and maximize
repeatability
• Bi-directional index output pulse with repeatability of 1LSB
• A-Quad-B tri-state output alarm for low signal
• All settings and setup parameters are stored in
non-volatile memory
• Superior EMI/RFI immunity - all outputs are differential;
CE compliant
Programmable Interpolation
The sensor has programmable interpolation that is selectable over
the range x4 to x16,384 in integer steps (depending on model),
providing output resolutions that can be matched to your
application requirements. This feature allows customers to reduce
inventory and field spare parts costs since one electronics module
can be programmed for many different resolution requirements and
different motion axes. Motion system development engineers also
benefit from the flexibility of programmable interpolation by
allowing them to vary the encoder's resolution during motion system
loop tuning and optimization. Linear resolutions can range from
5μm to 1.2nm in convenient increments and rotary resolutions from
20k CPR to 268 million CPR. Specify the interpolation value at the
time of ordering or select the interpolation at your site using
SmartPrecision II Software.
Programmable Maximum Output Frequency
For encoder applications combining high resolution and high
speed, the sensor supports up to 50 million quadrature state
changes per second*. By specifying the maximum output frequency
to match your controller’s capability - ranging from approximately
0.098 to 50 million quadrature state changes per second - the
Mercury II encoder system will never produce encoder counts faster
than your controller can read them. Specify the encoder's maximum
output frequency at the time of ordering or select the setting at your
site using MicroE's SmartPrecision II Software.
Dual limits
Mercury II includes optically and electrically fail-safe independent
left and right limits with differential TTL outputs.
The limit outputs are momentary. Optically, full reflectivity on
the optical limit track is the normal operating condition; loss of
signal on the optical limit track triggers a limit output, making them
optically fail-safe.The TTL output for limits is active-low, making them
electrically fail-safe. Limit outputs can be configured for active-low
or active-high at the time of ordering, or by the customer using
SmartPrecision II Software, to match your controller’s requirement.
* “Quadrature state changes per second” is the reciprocal of “dwell time”
or “edge separation”. For example, 50 million states per second =
0.02 μsec dwell time.
Programmable Low Pass Filter
The Mercury II 5000 has a programmable low-pass output filter for
enhanced performance in low speed applications. The filter can be
disabled for full bandwidth or set from 0.01 - 100kHz in steps of
0.01kHz, where the frequency is -3dB output roll off.
Alignment Tool
Alignment Tool Features
• Provides fast and easy sensor alignment, index setup and
limit setup
• Status and setup LED’s: red / yellow / green signal strength
LED’s assist during setup and provide diagnostics at a glance;
status LED’s for both limits; power-indicating LED
• Includes AC/DC power supply
• Use pushbutton or software for setup
• Built-in SmartPrecision II Software for setup, monitoring, and
diagnostics; only a web browser is needed (use of software is
optional)
• Ethernet software connectivity supports remote connection
to the Alignment Tool and MII5000 encoder, and multiple
encoders / computers
Note: Alignment Tool and software not for use while in servo control
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8. Mercury II™ 5000 Outputs
Mercury II 5000
Series Outputs:
15-pin standard Male D-sub connector
PIN Function
1 Right Limit+
2 Ground
3 Right Limit--
4 Index--
5 B--
6 A--
7 5V
8 5V
9 Ground
10 Left Limit+
11 Left Limit-
12 Index+
13 B+
14 A+
15 Do Not Connect
CABLE LENGTH
IDENTIFICATION LABEL
INTERPOLATION SETTINGS
PIN 9
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Maximum Quadrature Output Frequency
Output Frequency (MHz) A-Quad-B Output Rate (millions of states/sec) Dwell Time (or edge separation) (μsec)
12.50 50.00 0.02
6.25 25.00 0.04
3.125 12.50 0.08
1.563 6.25 0.16
0.781 3.125 0.32
0.391 1.5625 0.64
0.195 0.78125 1.28
0.098 0.390625 2.56
0.049 0.1953125 5.12
0.024 0.09765625 10.24
*Values shown are approximate. Exact values may be calculated as follows: Output Frequency = 12.5MHz / 2^n where n = number of steps below 12.5MHz,
or Output Rate = 50 / 2^n where n = number of steps below 50 million states per second.
Page 8
Signal Termination for
A-quad-B, Index and Limits
Output Signals
Quadrature TTL*
A
B
I
Limits*
≥ 5mm ≥ 5mm
Left Limit Marker Right Limit Marker
*Output signals are differential. Inverse signals are not shown for clarity.
**Note: At some interpolation values the index pulse may be aligned with other states of A or B than
the ones shown.
***Above are with reference to the sensor‘s optical centerline (see interface drawings).
Cable Zo=
120 Ω
Mercury II 5000
Series Encoder
Customer
Electronics
120
Ω
0.6mm ± 0.1*** 0.6mm ± 0.1***
Right Limit Out
Pins 1 & 3
Left Limit Out
Pins 10 & 11
Pins 14 & 6
Pins 13 & 5
Pins 12 & 4**
IDENTIFICATION LABEL
SENSOR P/N, SERIAL#
15.7
4.70
4.2 CABLE
DIAMETER
51.9
+.013M/-.0
39.2
PIN 1
PIN 15 PIN 8
SEE TABLE 2 and 3 FOR
PIN FUNCTIONS
3.18
Mechanical Information - 15 pin Connector
NOTE:
Tri-state alarm: A and B are tri-stated if the encoder signal becomes too low for reliable operation
+
−
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Page 9
Why use software with an encoder?
Mercury II™ 5000’s Alignment Tool includes include built-in
SmartPrecision II Software. The Alignment Tool’s pushbutton setup
process does not require use of the software, however
SmartPrecision II Software adds unique functionality:
• Monitor encoder operation using digital readouts and data plots
such as Lissajous
• Get support from trained MicroE Systems’ support personnel for
diagnosing customer equipment, no matter where the equipment
is located throughout the world
• Use Mercury II's programmable features for more rapid
integration and motion system optimization
• Perform encoder setup with the convenience and step-by-step
prompts of a software interface
Included with every Mercury II 5000 Alignment Tool,
SmartPrecision II Software can perform setup, monitoring, and
diagnostic functions locally or remotely across a LAN or WAN.
It operates from the encoder using simple Java commands and
thus does not require any software to be installed on the
computer other than a standard web browser (such as Internet
Explorer). Compatible with numerous web browsers and
operating systems, its features include simultaneous displays of:
• Position in engineering units
• Lissajous plot
• Encoder signal level
• Status of software alarms, index and limits
• Status of programmable encoder settings
• Encoder serial number
SmartPrecision™ II Software
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10. Functions:
• Setting of programmable features, including interpolation in
integer steps and quadrature output frequency
• Encoder Calibration
• View the Software Alarm Details
Program
Mercury II™
Encoder
Electronics
• Set interpolation in
integer steps from
x4 to x16,384
(Mercury II 5800)
• Set maximum output frequency to match your controller
• Disable / enable low-pass filter and set filter roll-off frequency
• Set limit logic when necessary to match your
controller’s requirements
Install Mercury II 5000 Encoders
• Align sensor using Signal Level display and Lissajous data plot
• Locate index and see when sensor is over the scale’s
index mark
• Verify sensor output over length of scale using the Signal
Strength plot
Monitor Mercury II 5000
Encoder Operation
• Read encoder position in engineering
units of your choice
• View data plots (software not for
use while using Mercury II 5000
in servo control)
• Monitor software alarms and
programmable settings
Diagnose Mercury II 5000
Encoder Performance
• Capture signal data and email it to MicroE for rapid
diagnostic support
•View software alarms and programmable settings
Page 10
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Ethernet Connectivity Features
The software resides in the Mercury II 5000 Alignment Tool as a 'web
server' and is accessed using an Ethernet connection. The computer
does not need any special software to be installed, so virtually any
computer can connect instantly to a Mercury II 5000 Alignment Tool.
Ethernet connectivity advantages include:
• High speed, network data connection supports many configurations:
- one encoder with one computer
- many encoders with one computer
- several computers and one encoder
- multiple encoders and multiple computers
- one-to-one (no network), LAN, WAN, or router
• Securely connect to the encoder remotely for monitoring and field
support through your company’s Virtual Private Network
• The software’s web server architecture can
- respond to a variety of requests (html pages, data requests, java
plots, etc.)
- take requests from most operating systems
- take requests from a variety of sources (user with web browser,
user-software, scripts, controller, etc.)
• Program your controller to communicate with the encoder using
simple HTML web commands for ‘observer’ position data feedback
or encoder status, including calibration, alarms, and limits
• Computer operating system independence and flexibility of
interfacing to your own software without needing any dlls,
drivers or any specific hardware or software configuration
Computer Requirements
• Any computer with a web browser (such as Internet Explorer)
and Java 2.0 installed and enabled
• Ethernet connection to a computer, LAN, WAN or router
How To Order
SmartPrecision II Software is included with all Mercury II 5000
Alignment Tools and does not require any installation - just access it
using your computer’s web browser.
SmartPrecision™ II Software
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11. Page 11
PurePrecision™ Laser Tape Scale with Stick-On Index
and Limits
Mercury II™’s PurePrecision laser tape scale is fast and easy to
install, provides excellent accuracy and takes less space than any
encoder in its class. It mounts using a permanent pressure-sensitive
adhesive. Thermal expansion of the substrate is matched by
anchoring the ends of the tape scale using epoxy and end caps.
Tape is supplied in a
dispenser in lengths up to
30m so that you can cut any
length required for your
application, minimizing
inventory costs, or it may be
ordered pre-cut to any length
you specify for high-volume
OEM applications.
Installation for a wide range of lengths is fast and easy
using MicroE Systems’ tape applicator tool, or
without a tool by hand. When using the
installation tool, release paper is
automatically removed from the
tape. The tape's location on the
mounting surface is set by a reference
edge that is either machined into the
substrate or is put in place temporarily.
The stick-on (adhesive-mount) optical
index and limit markers are mounted
on the tape in seconds usually using
the same reference edge as for the
tape scale. This space-saving design
keeps the index and limit markers
within the 6mm width of the tape,
ideal for space-constrained motion
systems. The index is bi-directional, operates at all encoder speeds,
and is repeatable to 1LSB. View the Tape Scale Installation video
at www.microesys.com/MercuryII for a demonstration.
Mercury II PurePrecision tape scale may also be installed using
scale applicator tools for 6mm-wide tape from other manufacturers.
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12. PurePrecision™ Laser Tape Scale
with Stick-On Index and Limits
The laser scale length that you specify for your application must
be calculated as follows. This calculation applies whether your
application requires end limits or not. 20mm at each end of the
tape scale are not to be used for encoder feedback.
Tape Scale Length = Measuring Length + 40mm*
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Example: Measuring Length of 800mm is required, and limits will
be used at the end of the tape scale. The Tape Scale
Length = 800mm + 40mm = 840mm.
*When the end limits are at the ends of the tape scale as shown below. The Tape
Scale Length must be increased further if the limit markers are applied at a
distance from the ends of the tape scale.
Index and Limit Marker Locations When End Caps Are Not Used
TAPE SCALE LENGTH (ML + 40mm)
LEFT LIMIT MARKER RIGHT LIMIT MARKER
Available Lengths:
Order as much tape scale as you will require for your production
and cut it to length for each job, or order pre-cut lengths to match
your application requirements. Note that the Measuring Length for
each axis in your equipment will be 40mm less than the Tape Scale
Length when end caps are not used. PurePrecision laser tape scale
is shipped in tubes for lengths from 40mm - 500mm and in
dispensers for lengths greater than 500mm.
Page 12
Order the required Tape Scale Length using model number TS-xxxxx
(where xxxxx = Tape Scale Length in mm [40mm - 30000mm].
Example (9000mm Tape Scale): TS-09000. Contact MicroE Systems
for lengths greater than 30m.
Specifications
Accuracy ±5μm/m after two-point linearization in the
customer’s controller
Material Inconel 625
Typical CTE 13ppm/°C; thermal behavior of the tape scale is
typically matched to the substrate using epoxy at
the ends of the tape scale
INDEX MARKER
D = Mounting Surface Reference Edge
6.00mm
MEASURING LENGTH (ML)
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Page 13
Linear and Rotary Glass Scales
MicroE Systems offers a wide array of chrome on glass scales. Easy
to install, choose from standard linear and rotary scales, or
customized linear, rotary, and rotary segment scales where needed.
Use linear glass scales when you need the highest accuracy.
Glass Scale Options
• Standard linear: 10mm - 1m (consult MicroE for longer lengths)
• Standard rotary: 44mm - 121mm diameter, with or
without hubs
• Custom linear*: special lengths, widths, thickness, index mark
locations, pre-printed index and limits, and special low CTE
materials
• Custom rotary*: special ID’s, OD’s (up to 304.8mm), index mark
inside the main track and special low CTE materials
• Mounting of hubs for rotary scales: MicroE Systems can mount
and align standard, custom, or customer-supplied hubs
• Rotary segments*: any angle range; wide range of radius values
*Custom scales or rotary segments are available in OEM quantities.
Contact your local MicroE Systems sales office.
Mercury II linear glass scales 130mm or shorter are only 6mm
wide, enabling drop-in replacement of existing 6mm wide tape
scale encoders for dramatic improvements in motion system
resolution and accuracy.
Standard Short Linear Scales
130mm and Shorter
Dimensions in mm.
Specifications
Accuracy ±1.5μm standard accuracy grade
±1μm available (high accuracy grade)
Material Soda lime glass
Typical CTE 8ppm/°C (Ultra-low CTE glass available)
D
INDEX MARKER
Model MIIL18 MIIL30 MIIL55 MIIL80 MIIL105 MIIL130
Scale Length 18mm 30mm 55mm 80mm 105mm 130mm
Measuring Length - 13mm 25mm 50mm 75mm 100mm 125mm
Without Limits
Measuring Length - N/A N/A 15mm 40mm 65mm 90mm
With Limits
Custom scales available, including scales with pre-printed index and limits
Linear Glass Scales
The stick-on (adhesive-mount) optical index and limit markers are
mounted on the scale in seconds usually using the same reference
edge as for the scale or a metal block. This space-saving design
keeps the index and limit markers within the 6mm width of the
scale, ideal for space-constrained motion systems. The index is bi-directional,
operates at all encoder speeds, and is repeatable to
1LSB.
The scale length that you specify for your application must be
calculated as follows.
When your application requires end limits:
Glass Scale Length = Measuring Length + 40mm*
Example: A Measuring Length of 90mm is required, and limits will
be used. Scale Length = 90mm + 40mm = 130mm.
*When the end limits are at the ends of the tape scale
When your application does not require end limits:
Glass Scale Length = Measuring Length + 5mm
Example: A Measuring Length of 25mm is required, and limits will
not be used. Scale Length = 25mm + 5mm = 30mm.
Factory cut-to-length flexibility:
Mercury II’s stick-on index and limit markers make factory cut-to-length
glass scales possible, enabling rapid turnaround for any
scale length and helping you exactly match your application
requirements. For OEM applications, linear glass scales can be
ordered with pre-printed index and limit markers that are
optimized for your needs, speeding installation and maximizing
motion system performance.
SCALE LENGTH (ML + 5mm)
6.0mm
2.49mm
D = Mounting Surface Reference Edge
MEASURING LENGTH (ML)
RIGHT LIMIT MARKER
LEFT LIMIT MARKER
2.50mm
Note: The following are only examples; you can order any size.
Order the required Scale Length using model number MIILxxxx where xxxx = Scale
length in mm (10mm - 1000mm). Example: (30mm Linear Glass Scale): MIIL30.
14. Sold & Serviced By:
Linear Glass Scales with Stick-on Index and Limits
Order the required Scale Length using model number MIILxxxx where
xxxx = Scale length in mm (10mm - 1000mm).
Example: (225mm Linear Glass Scale): MIIL225. Contact MicroE Systems
for lengths greater than 1m.
Standard Long Linear Scales
131mm and Longer (Dimensions in mm.)
Specifications
Accuracy ±5μm standard accuracy grade
2.50mm
Rotary Glass Scales with Built-in Index
Specifications
Material Soda lime glass
Typical CTE 8ppm/°C
Page 14
±2μm available (high accuracy grade)
Material Soda lime glass
Typical CTE 8ppm/°C (Ultra-low CTE glass available)
Model MIIL155 MIIL225 MIIL325 MIIL425 MIIL525 MIIL1000
Scale Length 155mm 225mm 325mm 425mm 525mm 1000mm
Measuring Length - 150mm 220mm 320mm 420mm 520mm 995mm
Without Limits
Measuring Length - 115mm 185mm 285mm 385mm 485mm 960mm
With Limits
Dimensions in mm
Model No. Fundamental Scale Outer Scale Inner Optical Hub Inner Hub
CPR Diameter Diameter Diameter Diameter Height
+0.013mm/-0.0000
MIIR4513 5000 44.45mm 12.70mm 31.83mm 6.358mm 1.27mm
MIIR6425 8192 63.50mm 25.40mm 52.15mm 12.708mm 1.52mm
MIIR12151 16384 120.65mm 50.80mm 104.30mm 25.408mm 2.03mm
Custom scales are available including larger diameters
Scale O. D.
Hub I. D.
Optical Diameter
Hub Height
Scale Pattern
Mounting Holes
Epoxy Holes
Standard Rotary Scales
2.29mm
D
SCALE LENGTH (ML + 5mm)
20.00mm
2.49mm
D = Mounting Surface Reference Edge
MEASURING LENGTH (ML)
RIGHT LIMIT MARKER
INDEX MARKER
LEFT LIMIT MARKER
Note: The following are only examples; you can order any size.
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Compatible with all Mercury II™ encoder
models, Installation Accessory Kits provide
everything you need to install Mercury II
encoders. Kits come in “non-consumable”
and “consumable” styles. Non-consumable
kits are designed for first-time buyers. They
include the special tools that you only need
to buy once, and add all of the consumables
needed for five installations. Consumable
kits are for customers to reorder after they
have used up the consumable materials in
the Non-consumable kits. The Consumables
Kits include all materials necessary for 10
installations. All Accessory Kits include both
Metric and US Customary sensor mounting
screws and hex wrenches, and come
packaged in a kit for convenient storage.
For instructions about how to use the kits,
see the installation manual for Mercury II
encoders at www.microesys.com/MercuryII.
MIIAK-1 Non-consumables for Tape Scale Installations (includes consumables for
five installations)
MIIAK-2 Consumables for Tape Scale Installations (includes consumables for
10 installations)
MIIAK-3 Non-consumables for Linear Glass Scale Installations (includes consumables for
five installations)
MIIAK-4 Consumables for Linear Glass Scale Installations (includes consumables for
10 installations)
MIIAK-5 Non-consumables for Rotary Glass Scale Installations (includes consumables for
five installations)
MIIAK-6 Consumables for Rotary Glass Scale Installations (includes consumables for
10 installations)
Note: MII5000 sensor height gages and sensor mounting screws are not included in the accessory kits. Contact MicroE Systems for availability.
Page 15
Installation Accessory Kits
MIIAK-1 MIIAK-2 MIIAK-3 MIIAK-4 MIIAK-5 MIIAK-6
Tape Scale Applicator Tool - for applying tape scale 1
Tape Scale Shears - for cutting tape scale 1
Tweezers - plastic with sharp tips 1 1
Sensor Height Gage - for verifying sensor height 1 1 1
Index and Limit Marker Set - for tape or linear glass scales 5 10 5 10
Tape Scale End Caps (two required per tape scale installation) 10 20
Two-part Epoxy - for mounting scales 5 Packages 10 Packages 5 Packages 10 Packages 5 Packages 10 Packages
Silicone Adhesive - for mounting linear glass scales 1 Tube 1 Tube
Powder-Free Finger Cots 8 15 8 15 8 15
Scale Cleaning Tissues 8 15 8 15 8 15
Sensor Mounting Screws - M2.5x6mm 10 20 10 20 10 20
Sensor Mounting Screws - 2-56UNCx1/4inch 10 20 10 20 10 20
Hex Wrench for M2.5 Screws 1 1 1
Hex Wrench for 2-56UNC Screws 1 1 1
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How to Order MercuryII™ 5000 Encoder Systems
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To specify your Mercury II encoder with the desired encoder model, cable length, level of interpolation, maximum output frequency, and
limit logic, order the required quantities for each system model number below. Order scales and additional items using their model number.
Call MicroE Systems’ Rapid Customer Response team for more information at 781-266-5700.
MII5800, A-quad-B Output, with Output Resolution from 5μm to 1.2nm
Example: MII5810-AB-16384-1-1-0
MII58XX ⎯ AB ⎯ Interpolation ⎯ Maximum Output ⎯ Limit Logic ⎯ Low Pass Filter Roll Off
Page 16
(Integer Steps) Frequency Frequency (kHz)
| | | | | |
MII5810 = 1m cable AB = A-quad-B output 4 = x4 1 = 12.50 MHz 1 = active low (fail safe) 0 = off (full bandwidth)
MII5830 = 3m cable 5 = x5 2 = 6.25 MHz 2 = active high 1 = 1kHz
MII5850 = 5m cable 3 = 3.125 MHz 2 = 2kHz
4 = 1.563 MHz
5 = 0.781 MHz
6 = 0.391 MHz
16384 = x16384 7 = 0.195 MHz
8 = 0.098 MHz 100 = 100kHz
9 = 0.049 MHz
10 = 0.024 MHz
MII5700, A-quad-B Output, with Output Resolution from 5μm to 5nm
Example: MII5710-AB-4000-1-1-0
MII57XX ⎯ AB ⎯ Interpolation ⎯ Maximum Output ⎯ Limit Logic ⎯ Low Pass Filter Roll Off
(Integer Steps) Frequency Frequency (kHz)
| | | | | |
MII5710 = 1m cable AB = A-quad-B output 4 = x4 1 = 12.50 MHz 1 = active low (fail safe) 0 = off (full bandwidth)
MII5730 = 3m cable 5 = x5 2 = 6.25 MHz 2 = active high 1 = 1kHz
MII5750 = 5m cable 3 = 3.125 MHz 2 = 2kHz
4 = 1.563 MHz
5 = 0.781 MHz
6 = 0.391 MHz
4000 = x4000 7 = 0.195 MHz
8 = 0.098 MHz 100 = 100kHz
9 = 0.049 MHz
10 = 0.024 MHz
MII5500, A-quad-B Output, with Output Resolution from 5μm to 50nm
Example: MII5510-AB-400-1-1-0
MII55XX ⎯ AB ⎯ Interpolation ⎯ Maximum Output ⎯ Limit Logic ⎯ Low Pass Filter Roll Off
(Integer Steps) Frequency Frequency (kHz)
| | | | | |
MII5510 = 1m cable AB = A-quad-B output 4 = x4 1 = 12.5MHz 1 = active low (fail safe) 0 = off (full bandwidth)
MII5530 = 3m cable 5 = x5 2 = 6.25 MHz 2 = active high 1 = 1kHz
MII5550 = 5m cable 3 = 3.125 MHz 2 = 2kHz
4 = 1.563 MHz
5 = 0.781 MHz
6 = 0.391 MHz
400 = x400 7 = 0.195 MHz
8 = 0.098 MHz 100 = 100kHz
9 = 0.049 MHz
10 = 0.024 MHz
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Page 17
How to Order MercuryII™ Encoder Systems
How to Order SmartPrecision Alignment Tool
Required for MII5000 setup. AC / DC Power Supply is included, 100-240 VAC / 50-60 Hz.
Example (Alignment Tool for MercuryII 5000 encoders, Europlug): ATMII5000-S-EU
ATMII5000 ⎯ Connector ⎯ Plug Type
S = US = Power Supply with
15-pin Std. US Standard 2-prong plug
D-sub
EU = Power Supply with
European Standard
2-prong plug
PurePrecision™ Laser Tape Scales
Example (8000mm Tape Scale): TS-08000
TS-xxxxx Where xxxxx = Tape Scale Length in mm (40mm - 30000mm)
MS
MS = One set of index and limit markers
(one index marker, one left limit marker, and one right limit marker)
EC
EC = One bag of tape scale end caps (10 per bag)
Note: two end caps are recommended per tape scale installation
PurePrecision Linear Glass Scales
(Standard accuracy grade)
Example (350mm Linear Glass Scale): MIIL350
MIILxxxx Where xxxx = Glass Scale Length in mm (10mm - 1000mm)
(High accuracy grade scales: consult MicroE Systems)
Note: index and limit marker sets must be ordered separately - one set per linear glass scale
PurePrecision Rotary Glass Scales
Example (44.45mm OD Rotary Glass Scale with Hub): MIIR4513-HI
MIIRxxxx* − Hub
MIIR4513 NH = Without Hub
MIIR6425 HI = for R4513
MIIR12151 HJ = for R6425
HK = for R12151
*Custom versions are available
Note: rotary glass scales are shipped not mounted to hubs; hub mounting is available from MicroE Systems - contact us for information
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