Instruction/ maintenance manual of the product Dual Axis Averager Mercury 3000Si MicroE Systems
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Mercury ™ 3 000Si Dual Axis A verager M M o o t t i i o o n n C C o o n n t t r r o o l l F F e e e e d d b b a a c c k k U U s s i i n n g g A A v v e e r r a a g g i i n n g g o o f f T T w w o o .
I I n n t t r r o o d d u u c c t t i i o o n n M icroE Systems was founded to a d v ance encoder technology to a level never before achieved. Our objective was to design encoder systems that would be.
Page 1 T T a a b b l l e e O O f f C C o o n n t t e e n n t t s s SYSTEM ILLUSTRA TION P AGE Encoder with Linear scale 2 Encoder with Rotar y scale 3 INST ALLA TION INSTRUCTIONS Encoder System Mounti.
Mercury 3000Si Encoder System with Linear scale Page 2 E E x x p p a a n n d d e e d d V V i i e e w w Scale benching edge End locator pin End index mark Sensor mounting holes (2) Bracket mounting hol.
Mercury 3000Si Encoder System with Rot ary scale Page 3 Double shielded cable S S y y s s t t e e m m V V i i e e w w Shown with Rotary scale Sensors (shown attached to a customer -supplied mounting b.
Inst allation Instructions Linear Encoders - Mounting Page 4 1 2 Install the sensors on your mounting surfaces referencing the appropriate datum surface as shown on the interface drawing. Use 2 washers per mounting screw . Benching pins may be used to locate each sensor if the system mechanical tolerances are adequate.
Inst allation Instructions Linear Encoders - Alignment Page 5 5 If benching dimensions cannot be provided, proper sensor alignment may require minor adjustments to each sensor’ s position with respect to the scale. This can be performed easily using the LED alignment indicators, as illustrated below .
Inst allation Instructions Rot ary Encoders - Mounting Page 6 Attach your hub/scale assembly to the rotary device. Refer to the interface drawing. The reflective surface of the scale must face the sensors. 1 2 Install the sensors on your mounting surface referencing the appropriate datum surface as shown on the interface drawing.
Inst allation Instructions Rot ary Encoders - Alignment Page 7 5 If benching dimensions cannot be provided, proper sensor alignment may require minor adjustments to each sensor’ s position with respect to the scale. This can be performed easily using the LED alignment indicators, as illustrated below .
Reference Section Installation of Linear Scales Page 8 MicroE Systems L 0.2L 0.6L 0.2L Benching pins Positioning the Scale Note: Before beginning mounting procedure, use talc-free gloves or finger cots to handle the scales. "Benching" the scale to the system means aligning the scale by means of benching pins.
Page 9 Reference Section Sensors mounted with good electrical contact to a well-grounded surfaces (preferred) 1. 25-pin D-sub connector grounding: The encoder's connector shell must be in intimate, electrically conductive contact with the customer - supplied mating connector , which must be isolated from the controller's ground.
Page 10 Customer Interface Cable Requirements Customer cables that interface to Mercury series encoders must have the following characteristics: • T wisted pair signal wiring.
Introduction Historically , the method of choice for many optical position feedback systems has been A quad B (Quadrature) output. The limitation of this method is output speed, especially when the interpolation level is high.
Index Processing A unique physical position is referenced on all gratings and is called an index position. The value of this position is determined during an index capture routine initiated by a button press or the SmartPrecision Software and is permanently stored for use after power cycling.
Hardware Requirements: SmartPrecision Software for M3000SiDAA requires a PC with the following minimum specifications: · Windows 2000 or XP operating systems · 300MHz · 32Mb RAM · 1024 x 768 or higher screen resolution with High Color (16 bit color) · 20Mb free disk space · One USB port (V ersion 1.
The M3000SiDAA interpolator module can be configured quickly and easily using the SmartPrecision Software. The M3000SiDAA inter - polator will accept input from two separate encoders. The M3000SiDAA has three output channels. These can be configured to output the following: Channel 1, Channel 2, Average ((Ch1+Ch2)/2), and/or Difference (Ch1-Ch2).
C C h h a a n n n n e e l l f f o o r r A A v v e e r r a a g g e e I I n n d d e e x x : : Selects the input channel index that will be used for the Averaged output.
F F r r i i n n g g e e C C o o u u n n t t e e r r S S i i z z e e The M3000SiDAA allows the user to configure the serial word to increase sampling rate.
Display Setting The Status Display in the center of the screen gives the user a snapshot of the interpolator con- figuration as well as Index posi- tion indication. The indicator light on the SmartPrecision soft- ware mimics the LED on the M3000SiDAA.
Calibration - SmartPrecision Sof tware Calibration should be performed only after each of the encoders is aligned properly . Calibration can be initiated by either the Calibrate button using Smart Signal Software or through the recessed push button switch in the M3000SiDAA.
Encoder Signal Data Plot showing pre-porcessed and processed data. The Encoder Signal Graph will plot the encoder signal for Channel 1 or Channel 2. The M3000SiDAA has a USB interface which allows very fast data collection and plotting.
Operating and Electrical Specifications Maximum Power Supply: 5V+/-5% @ 550mA (including two sensors) Operating T emperature: 0 to 70 degrees C Storage T emperature: -30 to 80 degrees C Humidity: 10 t.
Serial Output S pecification The interface to the M3000SiDAA Interpolator uses the following signals to implement serial communication, n_spiEnable (n_CS), spiDataOut (SDO), spiClockIn (SCK), and optionally spiClockOut (SCF). Each signal is differential and RS-422 compatible .
Symbol Parameter Minimum T ypical Maximum Units tspiH spiClock High T ime 50 ns tspiL spiClock Low Time 50 ns tCSC n_spiEnable to spiClock 0 ns tCSD n_spiEnable to DataV alid 80 ns tV .
Operational Modes: T rigger Approach Timing Diagram Symbol Parameter Minimum T ypical Maximum Units tspiH spiClock High T ime 50 ns tspiL spiClock Low Time 50 ns tTDR n _ spiEndable to DataReady 1.
T roubleshooting Problem The Power/Calibration indicator will not come on. Solution • Make sure that the SmartPrecision electronics’ 25-pin HD connector is fully seated and connected. • Confirm that +5 Volts DC is being applied to pin 24 on the SmartPrecision electronics’ 25-pin HD connector and that pin 25 is connected to ground.
Cont act MicroE Systems Cleaning scales General Particle Removal Blow off the contamination with nitrogen, clean air , or a similar gas. Contamination Removal Use a lint-free cleanroom wipe or cotton swab dampened with isopropyl alcohol or acetone only .
An important point after buying a device MicroE Systems Dual Axis Averager Mercury 3000Si (or even before the purchase) is to read its user manual. We should do this for several simple reasons:
If you have not bought MicroE Systems Dual Axis Averager Mercury 3000Si yet, this is a good time to familiarize yourself with the basic data on the product. First of all view first pages of the manual, you can find above. You should find there the most important technical data MicroE Systems Dual Axis Averager Mercury 3000Si - thus you can check whether the hardware meets your expectations. When delving into next pages of the user manual, MicroE Systems Dual Axis Averager Mercury 3000Si you will learn all the available features of the product, as well as information on its operation. The information that you get MicroE Systems Dual Axis Averager Mercury 3000Si will certainly help you make a decision on the purchase.
If you already are a holder of MicroE Systems Dual Axis Averager Mercury 3000Si, but have not read the manual yet, you should do it for the reasons described above. You will learn then if you properly used the available features, and whether you have not made any mistakes, which can shorten the lifetime MicroE Systems Dual Axis Averager Mercury 3000Si.
However, one of the most important roles played by the user manual is to help in solving problems with MicroE Systems Dual Axis Averager Mercury 3000Si. Almost always you will find there Troubleshooting, which are the most frequently occurring failures and malfunctions of the device MicroE Systems Dual Axis Averager Mercury 3000Si along with tips on how to solve them. Even if you fail to solve the problem, the manual will show you a further procedure – contact to the customer service center or the nearest service center