all | frequencies |
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USER GUIDE | Users Manual | 1.70 MiB | May 07 2002 / January 10 2002 | |||
1 | Attestation Statements | May 07 2002 / January 10 2002 | ||||||
1 | Parts List/Tune Up Info | March 07 2002 / January 10 2002 | ||||||
1 | Block Diagram | March 07 2002 / January 10 2002 | ||||||
1 | Schematics | March 07 2002 / January 10 2002 | ||||||
1 | ID Label/Location Info | March 07 2002 / January 10 2002 | ||||||
1 | External Photos | March 07 2002 / January 10 2002 | ||||||
1 | Internal Photos | March 07 2002 / January 10 2002 | ||||||
1 | Schematics | March 07 2002 / January 10 2002 | ||||||
1 | Schematics | March 07 2002 / January 10 2002 | ||||||
1 | Block Diagram | March 07 2002 / January 10 2002 | ||||||
1 | Operational Description | March 07 2002 / January 10 2002 | ||||||
1 | Test Report | March 07 2002 / January 10 2002 | ||||||
1 | Test Setup Photos | March 07 2002 / January 10 2002 |
1 | USER GUIDE | Users Manual | 1.70 MiB | May 07 2002 / January 10 2002 |
MP18 224 MHz LP USA MP18 Probe System selectable channel radio transmission Installation and User's Guide 2 FCC DECLARATION USA FCC ID: KQG RMP3-224 PATENTS Features of the MP18 Probe With Channel Selectable Radio Transmission are the subject of the patents and patent applications listed below :
EP 108521 EP 501680 EP 506318 EP 652413 JP JP JP JP 326, 001/1992 89, 397/1993 1, 847, 335 1, 942, 442 US 4, 599, 524 US 4, 636, 960 US 4, 636, 960 US 5, 272, 817 3 This product has been tested to the following European Standards I-ETS 300 220 (October 1993) ETS 300 683 (June 1997) FCC DECLARATION (USA) FCC Section 15.19 This device complies with Part 15 of the FCC rules. Operation is subject to the following two conditions:
1. This device may not cause harmfull interference. 2. This device must accept any interference received, including interference that may cause undesired operation. FCC Section 15.105 This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference, in which case you will be required to correct the interference at your own expense. FCC Section 15.21 The user is cautioned that any changes or modifications not expressly approved by Renishaw plc, or authorised representative could void the user's authority to operate the equipment. FCC Section 15.27 The user is also cautioned that any peripheral device installed with this equipment such as a computer, must be connected with a high quality shielded cable to insure compliance with FCC limits. 4 GB SAFETY Beware of unexpected movement. The user should remain outside of the full working envelope of probe head/extension/probe combinations. Handle and dispose of batteries according to the manufacturers recommendations. Use only the recommended batteries. Do not allow the battery terminals to contact other metallic objects. For instructions regarding the safe cleaning of Renishaw products, refer to the Maintenance section of the relevant product documentation. Remove power before performing any maintenance operations. Refer to the machine suppliers operating instructions. The unit must be supplied from a 24V DC SELV supply complying with the essential requirements of BS EN 61010 or similar specification. D SICHERHEITSANWEISUNGEN Auf unerwartete Bewegungen achten. Der Anwender soll sich immer auerhalb des Metasterkopf-Arm-Metaster-Bereichs aufhalten. Batterien immer gem den Anleitungen des Herstellers handhaben und diese vorschriftsmig entsorgen. Nur die empfohlenen Batterien verwenden. Die Batterieklemmen nicht in Kontakt mit metallischen Gegenstnden bringen. Anleitungen ber die sichere Reinigung von Renishaw-Produkten sind in Kapitel MAINTENANCE (WARTUNG) in der Produktdokumentation enthalten. Bevor Wartungsarbeiten begonnen werden, mu erst die Stromversorgung getrennt werden. Beziehen Sie sich auf die Wartungsanleitungen des Lieferanten. Die Einheit mu von einer Schutzkleinspannungsversorgung mit 24V DC gespeist werden, die den wesentlichen Anforderungen von BS EN 61010 oder einer hnlichen Norm entspricht. DK SIKKERHED Pas p uventede bevgelser. Brugeren br holde sig uden for hele sondehovedets/ forlngerens/ sondens arbejdsomrde. Hndtr og bortskaf batterier i henhold til producentens anbefalinger. Anvend kun de anbefalede batterier. Lad ikke batteriterminalerne komme i kontakt med andre genstande af metal. Se afsnittet MAINTENANCE (VEDLIGEHOLDELSE) i produktdokumentationen for at f instruktioner til sikker rengring af Renishaw-produkter. Afbryd strmforsyningen, fr der foretages vedligeholdelse. Se maskinleverandrens brugervejledning. Enheden skal forsynes fra en 24 V d.c. SELV (Separat ekstra lav spnding) netspnding, der efterlever de vigtige krav i BS EN 61010 eller lignende specifikation. 5 E F SEGURIDAD Tener cuidado con los movimientos inesperados. El usuario debe quedarse fuera del grupo operativo completo compuesto por la cabeza de sonda/
extensin/sonda o cualquier combinacin de las mismas. Las bateras deben ser manejadas y tiradas segn las recomendaciones del fabricante. Usar slo las bateras recomendadas. No permitir que los terminales de las mismas entren en contacto con otros objetos metlicos. Para instrucciones sobre seguridad a la hora de limpiar los productos Renishaw, remitirse a la seccin titulada MAINTENANCE
(MANTENIMIENTO) en la documentacin sobre el producto. Quitar la corriente antes de emprender cualquier operacin de mantenimiento. Remitirse a las instrucciones de manejo del proveedor de la mquina. La unidad debe de ser alimentada desde un alimentador .V c.c. SELV
(Tensin Extra Baja Separada) que cumpla con los requisitos esenciales de BS EN 61010 o una especificacin similar. SECURITE Attention aux mouvements brusques. Lutilisateur doit toujours rester en dehors de la zone de scurit des installations multiples tte de palpeur/rallonge/palpeur. Suivre les conseils du fabricant pour manipuler et jeter les batteries. Utiliser uniquement les batteries recommandes. Veiller ce que les bornes de la batterie nentrent pas en contact avec dautres objets mtalliques. Les conseils de nettoyage en toute scurit des produits Renishaw figurent dans la section MAINTENANCE de votre documentation. Mettre la machine hors tension avant dentreprendre toute opration de maintenance. Consulter le mode demploi du fournisseur de la machine. Lappareil doit tre aliment par un courant continu de 24V SELV
(voltage ultra-faible spar), conformment aux exigences primordiales de la norme BS EN 61010 ou dune spcification semblable. FIN TURVALLISUUTTA Varo killist liikett. Kyttjn tulee pysytell tysin anturin pn/jatkeen/
anturin yhdistelmi suojaavan toimivan kotelon ulkopuolella. Kyt paristoja ja hvit ne valmistajan ohjeiden mukaisesti. Kyt ainoastaan suositeltuja paristoja. l anna paristonapojen koskettaa muita metalliesineit. Renishaw-tuotteiden turvalliset puhdistusohjeet lytyvt tuoteselosteen MAINTENANCE (HUOLTOA) koskevasta osasta. Kytke pois shkverkosta ennen huoltotoimenpiteit. Katso koneen toimittajalle tarkoitettuja kytthjeita. Laite virta on kytkettv 24V d.c. SELV (Separated Extra Low Voltage - Erotettu erityisen alhainen jnnite) -virtaverkkoon standardin BS EN 61010 tai vastaavan spesifikaation asettamien perusvaatimusten 6 GR I SICUREZZA Fare attenzione ai movimenti inaspettati. Si raccomanda allutente di tenersi al di fuori dellinvolucro operativo della testina della sonda, prolunghe e altre varianti della sonda. Trattare e smaltire le pile in conformit alle istruzioni del fabbricante. Usare solo pile del tipo consigliato. Evitare il contatto tra i terminali delle pile e oggetti metallici. Per le istruzioni relative alla pulizia dei prodotti Renishaw, fare riferimento alla sezione MAINTENANCE (MANUTENZIONE) della documentazione del prodotto. Prima di effettuare qualsiasi intervento di manutenzione, isolare dallalimentazione di rete. Consultare le istruzioni duso del fabbricante della macchina. Lunit deve essere alimentata da unalimentazione di 24V C.C.
(Tensione Bassa Separata Extra) conforme agli essenziali requisiti della NS EN 61010 o analoghe specifiche. NL VEILIGHEID Oppassen voor onverwachte beweging. De gebruiker dient buiten het werkende signaalveld van de sondekop/extensie/sonde combinaties te blijven. De batterijen volgens de aanwijzingen van de fabrikant hanteren en wegdoen. Gebruik uitsluitend de aanbevolen batterijen. Zorg ervoor dat de poolklemmen niet in contact komen met andere metaalhoudende voorwerpen. Voor het veilig reinigen van Renishaw produkten wordt verwezen naar het hoofdstuk MAINTENANCE (ONDERHOUD) in de produktendocumentatie. Voordat u enig onderhoud verricht dient u de stroom uit te schakelen. De bedieningsinstructies van de machineleverancier raadplegen. De stroomtoevoer naar de eenheid moet gebeuren via een 24V gelijkstroom SELV (Separated Extra Low Voltage - Afzonderlijke extra lage spanning) voeding, overeenkomstig de belangrijkste vereisten van de Britse norm BSEN61010 of een gelijksoortige standaard. 7 P SEGURANA Tomar cuidado com movimento inesperado. O utilizador deve permanecer fora do permetro da rea de trabalho das combinaes cabea da sonda/
extenso/sonda. Manusear e descartar baterias de acordo com as recomendaes do fabricante. Utilizar apenas as baterias recomendadas. No permitir que os terminais da bateria entrem em contacto com outros objectos metlicos. Para instrues relativas limpeza segura de produtos Renishaw, consultar a seco MAINTENANCE (MANUTENO) da documentao do produto. Desligar a alimentao antes de efectuar qualquer operao de manuteno. Consultar as instrues de funcionamento do fornecedor da mquina. A unidade deve ser abastecida de um abastecimento SELV (Separated Extra Low Voltage) (baixa voltagem extra separada) de 24 V. c.d., em conformidade com os requisitos essenciais da norma BS EN 61010 ou de outra especificao semelhante. SW SKERHET Se upp fr pltsliga rrelser. Anvndaren br befinna sig utanfr arbetsomrdet fr sondhuvudet/frlngningen/sond-kombinationerna. Hantera och avyttra batterier i enlighet med tillverkarens rekommendationer. Anvnd endast de batterier som rekommenderas. Lt ej batteriuttagen komma i kontakt med andra metallfreml. Fr instruktioner angende sker rengring av Renishaws produkter, se avsnittet MAINTENANCE (UNDERHLL) i produktdokumentationen. Koppla bort strmmen innan underhll utfrs. Se maskintillverkarens bruksanvisning. Enheten mste strmfrsrjas frn en SELV-klla (Separated Extra Low Voltage - Separat extra lg spnning) p 24 volt likstrm, som uppfyller huvudkraven i BS EN 61010, eller motsvarande specifikation. 8 CONTENTS SYSTEM DESCRIPTION System description Features System operation System components System specification MP18 and MP18-S PROBES MP18 probe/shank MP18-S probe/shank MP18 probe/shank assembly MP18 stylus on centre adjustment MP18-S stylus on centre adjustment RMM ANTENNA Page No. 9 9 9 10 11 12 13 14 14 15 Operating envelope and installation 16 MI16 INTERFACE MI16 front panel MI16 rear panel MI16 audio diagnostics MI16 output waveforms MI16 panel mounting kit PSU3 POWER SUPPLY UNIT OM16 OPTICAL MODULE MI18 BATTERY POWER MODES OF OPERATION MODE AND CHANNEL SELECTION PROGRAMMING THE MI16 INTERFACE 18 19 20 20 20 21 22 24 25 26 26 RADIO FREQUENCY AND CHANNEL SEPERATION 27 PROGRAMMING THE PROBE RMP3 MODULE 28 MAINTENANCE Stylus spring pressure adjustment 29 Diaphragm inspection and replacement 30 Screw torque values PARTS LIST 31 32-33 ADDENDUM 1 - compatibility with other systems 34 ADDENDUM 2 - shank manufacture for MP18 35 ADDENDUM 3 - selection of MI16 sensitivity
... ... ... 36 9 SYSTEM DESCRIPTION The MP18 Probe is used for job set up and workpiece measurement on CNC machine tools. Signal transmission between transmitters and recievers is non line of sight. The radio channel is selectable and signal transmission range is up to distances of 3m (9.8ft). FEATURES G Transmission of the probe trigger signal using FM radio transmission at 224MHz frequency. G User selection of the transmission channel (up to 40 available), permits many systems to operate in close proximity, with no interference between systems. G Switch on - switch off mode. G Two receivers to provide cover for signal transmission dead spots. G M code switch on and off of the probe, using an optional optical transmitter module (OM16). SYSTEM OPERATION The probe assembly is stored in the machine tool changer as any other tool, and is transferred to the machine spindle for probing routines. The probe head acts as an omni-directional switch and is effective in the X, Y and +Z directions. During operation, the probe stylus is driven against a workpiece feature. On contact the radio module probe (RMP3) transmits a probe signal to the two radio modules machine (RMM), using frequency modulated (FM) radio waves. The signal then passes via cable to the MI16 interface and onto the CNC machine control, thereby recording the stylus contact position in the machine tool registers. Two different contact positions enable features to be measured. Probing software is available from Renishaw 10 SYSTEM COMPONENTS RMM x 2 radio module machine Machine spindle MP18-S typical shank Shank switch Shank adaptor RMP3 radio module probe Probe head MP18 probe MP18 typical shank OM16 optical module optional PSU3 power supply unit optional Workpiece Machine table DESCRIPTION Probe head + RMP3 radio module probe + shank adaptor for MP18. Probe ready shanks are available from Renishaw. Probe head + RMP3 radio module probe + shank adaptor for MP18 -S. Custom shanks are supplied on application to Renshaw Custom Products Department. MP18-S shanks incorporate a shank switch which switches the probe on, when it is placed in the machine spindle. MI16 interface unit CNC machine control COMPONENT MP18 probe Shank for MP18 MP18-S probe Shank for MP18-S MP18 shank adaptor MP18-S shank adaptor Probe to shank adaptor plate (Part No. A-2107-0031). Probe to shank adaptor plate (Part No. A-2249-0134). RMM with side or rear cable exit Radio Module Machine - transmits and receives signals between machine control and Radio Module Probe (RMP3). MI16 machine interface Signals received by the RMM, pass via coaxial cable to the MI16 machine interface, which decodes and converts them into solid state relay (SSR) outputs for use by the machine tools CNC controller. OM16 - optional optical module An M code causes the OM16 optical transmission module, to send probe switch on/off signal to the RPM3. PSU3 - optional power supply unit The MI16 draws 24V DC power from the CNC machine and presents a load of up to 500mA. If this supply is not available from the machine power can be supplied by a Renishaw PSU3 power supply unit. 11 Z SPECIFICATION dimensions mm (in) PROBE REPEATABILITY Maximum 2 Sigma (2) Value Repeatability of 1,0m (0.00004in) is valid for test velocity of 480mm/min (1.57ft/min) at stylus tip, using stylus 50mm (1.97in) long. SENSE DIRECTIONS and STYLUS TRIGGER FORCE Set at factory using stylus 50mm (1.97in) long. X and Y trigger forces vary around the stylus seating. X and Y direction - lowest force 0,75N 75gf
(2.64oz) X and Y direction - highest force 1,4N 140gf
(4.92oz) 4,9N 490gf
(17.28oz) Z direction force PROBE SEALING IPX8 (BS 5490, IEC 529) 100kPa
(1 atmosphere). SYSTEM DELAYS The time delay from the probe stylus contacting the workpiece, and the MI16 machine interface providing an output signal to the CNC controller is 12ms 10s. 21,5mm
(0.85in) 17.5 17.5 X/Y STYLUS OVERTRAVEL LIMITS Stylus length 50mm
(1.96in) 100mm
(3.93in) X - Y Z 21,5mm
(0.84in) 36,5mm
(1.43in) 8mm
(0.31in) 8mm
(0.31in) ENVIRONMENT PROBE/RMP3 RMM2 MI16 INTERFACE OM16 Storage Operating TEMPERATURE
-20C to 60C
(-4F to 140F) 0C to 40C
(32F to 104F) RADIO FREQUENCIES and TRANSMISSION RANGE Region Nominal
. transmission frequency Number of transmission channels Channel separation Transmission range USA 224 MHz 40 25 KHz 3m (9.8ft) 12 MP18 dimensions mm (in) TAPER SHANK The shank is attached to the RMP3 using a shank adaptor. Part No. A-2107-0031. The method of attachment is the same as used for other Renishaw probes (MP7, MP8, MP9 and MP10 compact optical probes). Shank assembly is shown on page 14. Probe ready shanks are available from Renishaw. Shank modification details for shanks obtained from other sources are given on page 35. Taper shank 9mm
(0.35in) B A Shank adaptor 95mm
(3.74in) 85
(3.35) RMP3 62
(2.24) 29
(1.14) 22
(0.87) 48 (1.89) 21,5
(0.85) LED x 4 optical switch on/off STATUS LED Green - stylus seated Red - stylus deflected 17.5 17.5 Stylus length 6 (0.24) Probe-ready shanks available from Renishaw Please quote the Part No. when ordering equipment Shank Part No. Taper A DIN 2080 DIN 69871 ANSI B5.50 1985 (CAT) BT M-2045-0132 M-2045-0024 M-2045-0025 M-2045-0026 M-2045-0064 M-2045-0065 M-2045-0066 M-2045-0067 M-2045-0137 M-2045-0138 M-2045-0139 M-2045-0077 M-2045-0027 M-2045-0038 M-2045-0073 30 40 45 50 30 40 45 50 40 45 50 30 40 45 50 20,0 (0.787) 13,6 (0.535) 15,2 (0.598) 15,2 (0.598) 35,25 (1.388) 35,25 (1.388) 35,25 (1.388) 35,25 (1.388) 35,25 (1.388) 35,25 (1.388) 35,25 (1.388) 27,5 (1.083) 32,0 (1.260) 33,0 (1.299) 38,0 (1.496) PROGRAMMING LED B 9,6 (0.378) 11,6 (0.457) 15,2 (0.598) 15,2 (0.598) 19,0 - 19,1 (0.748 - 0.752) 19,0 - 19,1 (0.748 - 0.752) 19,0 - 19,1 (0.748 - 0.752) 19,0 - 19,1 (0.748 - 0.752) 19,0 - 19,1 (0.748 - 0.752) 19,0 - 19,1 (0.748 - 0.752) 19,0 - 19,1 (0.748 - 0.752) 27,5 (1.083) 32,0 (1.260) 33,0 (1.299) 38,0 (1.496) These shanks are not suitable for the MP18-S probes which use a dedicated shank incorporating a shank switch. MP18-S dimensions mm (in) 13 7,13
(0.28) 14,25
(0.56) Taper shank TAPER SHANK Complete probe/shank units are supplied by Renishaw. These shanks incorporate a switch. The shank is attached to the RMP3 using a shank adaptor. Part No. A-2249-0134. The method of attachment is shown on page 15. A 4 (0.16) 90 Shank switch RMP3 62
(2.24) 85
(3.35) Drive slot B 95
(3.74) 29
(1.14) 22
(0.87) 48 (1.89) 21,5
(0.85) 17.5 17.5 Stylus length 6 (0.24) Thread for pull stud To save battery life, the shank switch must NOT be depressed, during the time the probe is held in the tool store. It may be nesessary to provide a storage location with a clearance around the switch. Orders placed for MP18-S probes require a separate quotation and price. Please contact Renishaw Custom Products Department. SHANKS AVAILABLE Shank type BT BT ANSI B5.50 - 1985 (CAT) ANSI B5.50 -1985 (CAT) DIN 69871 DIN 69871 ANSI (CAT) MODIFIED ANSI (CAT) MODIFIED ISO taper 40 50 40 50 40 50 40 50 Dimensions A 35
(1.38)
(1.97) 50
(1.38) 35 65
(2.56) 50,6 (1.99) 50,6 (1.99) 35
(1.38)
(2.56) 65 B 14
(0.55) 24
(0.94) 14
(0.55) 36,8 (1.45) 14
(0.55) 36,8 (1.45) 14
(0.55) 36,8 (1.45) These shank specifications are for certain Cincinatti Milacron machines. Generally to ANSI B5.50 - 1985 (CAT), but with a metric thread for the pull stud. 14 MP18 PROBE/ADAPTOR PLATE/SHANK ASSEMBLY STYLUS ON-CENTRE ADJUSTMENT Adaptor plate A-2107-0031 Special short arm hexagon key 4mm AF A Adaptor plate PROBE B C SHANK SHANK 2,5mm AF 4mm AF C B Adaptor plate PROBE PROBE/SHANK MOUNTING 1. Remove battery covers and battery
- see opposite. 2. Tighten probe/adaptor plate screws A to 5.1 Nm (3.76 lbf.ft) using special 4mm AF hexagon key (supplied in tool kit). 3. Fully slacken four screws B. 4. Grease two screws C, and fit into shank. 5. Fit probe onto the shank, and visually position the probe centrally relative to the shank. Partially tighten screws C to 2 - 3 Nm (1.47 - 2.2 lbf.ft). 6. Mount the probe/shank assembly into machine spindle. STYLUS ON-CENTRE ADJUSTMENT 7. Each of the four screws B will move the probe relative to the shank, in the X or Y direction as pressure is applied. Tighten individually, backing off after each movement. 8. When the stylus tip run-out is less than 20m, fully tighten screws C to 6 - 8 Nm
(4.4 - 5.9 lbf.ft). 9. For final centering use screws B to move the probe, progressively slackening on one side and tightening the opposite screw, as the final setting is approached, using two hexagon keys. Tip run out of 5m (0.0002 in) should be achievable. It is important that all four screws B are tight or tightened to 1,5 - 3,5 Nm
(1.1 - 2.6 lbf.ft) once the final setting has been achieved. 10. 11. When on-centre adjustment is completed, replace battery and covers - see opposite. Note :
1. DURING ADJUSTMENT CARE SHOULD BE TAKEN NOT TO ROTATE THE PROBE RELATIVE TO THE SHANK. 2. IF A PROBE/SHANK UNIT IS ACCIDENTALLY DROPPED, IT SHOULD BE CHECKED FOR ON-CENTRE POSITION. 3. DO NOT HIT OR TAP THE PROBE TO ACHIEVE ON-CENTRE ADJUSTMENT. MP18-S STYLUS ON-CENTRE ADJUSTMENT Complete units are supplied on application to Renishawn Custom Products Department 15 2.5mm AF 3mm AF Two clamping screws A Four on-centre adjusting screws 2mm AF STYLUS ON-CENTRE ADJUSTMENT 1. If adjustment is required, remove the battery covers and battery. 2. Slacken the two probe/shank clamping screws half of one turn, so that the disc washers maintain a slight clamping grip. 3. There are four adjusting screws A. Each will move the probe relative to the shank, in the X or Y direction as pressure is applied. Tighten individually. Back off after each movement. 4. When stylus target position is obtained, tighten all screws - see page 30. 5. Replace battery and battery covers. MP18 and MP18-S STYLUS ON-CENTRE ADJUSTMENT Stylus alignment with the spindle centre line need only be approximate, except in the following circumstances. 1. When probe vector software is used. 2. When the machine control software cannot compensate for an offset stylus. 3. The stylus must be parallel to the spindle axis to prevent stylus stem contact against the side of deep holes. How to check stylus position Mount the probe in the machine spindle and use one of the following procedures. 1. Rotate stylus close to a reference surface, check if the gap is constant. 2. Rotate stylus against low force dial test indicator, which does not unseat the probe. 3. Use method advised by machine tool supplier. 16 RADIO MODULE MACHINE (RMM) Cable side exit and rear exit versions are available phones or another radio probe operating on the same channel. An audio monitoring facility is provided to diagnose causes of interference - see page 18. RMM MOUNTING Select a flat, metallic surface, ideally away from corners and bulkheads. The base of each RMM incorporates five perma-
nent magnets to allow temporary attachment to a metal surface. Alternatively three clearance holes are provided within the base for M4 fixing screws -10mm long for permanent installation. RMM POSITIONING Each RMM must be installed with care in order to receive as strong and reliable a signal as possible from the probe/RMP3 transmission module. To guarantee reliability, the MI16 Interface has two independent reception circuits, each support one antenna (RMM). Radio waves are a coherent form of energy, and reflected signals may add or subtract to the performance, resulting in no signal in some positions. To avoid this, a second RMM is recommended. Commence by connecting a single RMM to the MI16 interface. Position the RMM as close as possible to the working envelope. Activate the probe/RMP3. The strength of the radio transmission signal is observed using the MI16 interface front panel Rx signal display - see page 18 item 6. Move the probe around the working envelope and observe the RX signal display. Identify positions in the working envelope where the signal is weak or disappears. A satisfactory signal is indicated by the RX display signal bars remaining green. RMM RADIO ANTENNA The RMM receives radio signals from the probe, and passes the signals via a 10m (32ft) coaxial cable to the MI16 interface. Two RMM units are supplied with each system. The system can operate with a single RMM, but there may be areas where the radio signal is weak. This is a characteristic of all radio systems. The second RMM is positioned to provide good reception over the probes full working area. SIGNAL TRANSMISSION ENVELOPE Radio signals can be transmitted and recieved up to distance of 3 metres (9.8ft), in any direction. Distances greater than this may be achievable under certain circumstances. Line of sight between the RMP3 and the RMM is not required and the signal can still be received with the RMP3 fully enclosed in a bore. Systems operating on the same channel should be seperated by a distance of 100m (328ft), to avoid interference with each other. OPERATING ENVIRONMENT It is important that the environment is free from interference at the chosen transmission frequency. Devices that may make operation difficult include arc welders, pagers, remote control keys, mobile 17 120 120 68mm
(2.677in) PCD 120 30 Conduit Cable Top view The cable must be protected from the machine environment by suitable conduit.
(Thomas and Betts SHURESEAL 1/4in, Part No TBEF 0250-50, or equivalent). SIDE EXIT CABLE 60mm (2.36in) 40mm
(1.57in) dimensions mm (in) 82mm
(3.29in) 34mm
(1.39in) 16.5mm (0.65in) 360mm (14.17in) REAR EXIT CABLE 68mm
(2.677in) PCD 120 30 11,5mm
(0.45in) 60mm (2.36in) 40mm
(1.57in) 82mm
(3.29in) Cable 120 120 Rear view Disconnect the RMM antenna and connect the second RMM cable to either of the MI16 antenna inputs. Position the second RMM such that the regions of weak signal do not coincide with those observed with the first RMM. A good solution is to mount antennae at 90 to each other. 360mm (14.17in) Once a suitable position has been established, reconnect the first RMM and the system is ready for use. 18 MI16 INTERFACE dimensions mm (in) The MI16 interface converts probe signals into an acceptable form for the CNC machine control. 240mm (9.45in) 55mm
(2.16in) 5mm
(0.2in) Self adhesive foot 20mm (0.79in) 1 2 3 4 5 6 7 8 9 10 11 12 235mm (9.25in) MI16 front panel LEDs display the switch on/off mode, RMP3 program status, signal strength, and probe status. It also provides buttons to select the signal transmission channel and audio volume. 1 2 3 4 5 6 START MODE The selected start mode is indicated by a lit LED. CHANNEL The display shows the selected transmission channel. PROGRAM CONFIRM The LED lights to indicate the successful programming of the RMP3 transmission channel and start mode. PROGRAM BUTTONS Buttons used to select the required transmission channel and start mode for programming of the RMP3. LOW Rx SIGNAL LED Lit when the received signal is too low
(3 or less bargraph segments lit). Rx SIGNAL Indicates the received signal level
(10 segments green for a strong signal, 0 for probe switched off). 7 8 9 10 11 12 PROBE STATUS LED Lit when the probe is seated. Off when triggered. ERROR LED Lit when an error occurs in the transmission of the probe signal, or when the probe is off. LOW BATTERY LED Lit when the battery voltage falls below 7V. Replace the batteries as soon as possible after this LED lights up. AUDIO VOLUME CONTROL Adjusts the volume of the audible transmission monitor. Used to diagnose interference sources. TRIGGER VOLUME CONTROL Adjusts the volume of the audible indicator, heard on probe trigger and to confirm programming operations. PROGRAMMING WINDOW The LEDs used for RMP3 programming are mounted behind this window. To program the RMP3 its programming LEDs must be aligned with the MI16 programming window. MI16 REAR PANEL CONNECTIONS Connections to the CNC machine control, the power supply and RMM antennae are located on the MI16 rear panel. A 16 pin connector is supplied, the pin functions are described below :
19 19 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 1 2 3 4 5 6 7 8 9 10 11 GROUND
+24 VOLTS DC ( 10%) Capable of supplying 500mA 0 VOLTS OM SCREEN Connection for OM16 cable screen
+ ve OM16 CONNECTION ve OM16 CONNECTION
+ ve MACHINE START
- ve MACHINE START ERROR SSR ERROR SSR LOW BATTERY SSR 12 13 14 15 16 17 18 19 LOW BATTERY SSR PROBE STATUS SSR
(NORMALLY CLOSED) PROBE STATUS SSR
(NORMALLY CLOSED) PROBE STATUS SSR
(NORMALLY OPEN) PROBE STATUS SSR
(NORMALLY OPEN) BNC CONNECTOR FOR FIRST ANTENNA BNC CONNECTOR FOR SECOND ANTENNA CHASSIS GROUND INTERFACE GROUNDING The MI16 is equipped with an internal power transformer which ensures that the casing is isolated from the external power source. To maintain the isolation the positive (+) and negative (-) wires must be connected without contacting the chassis. Use of a shielded cable is preferred. The cable screen must be connected to ground on the machine controller and to the primary ground connection on the MI16 Interface connector
(item 1). The MI16 is equipped with a chassis ground tab (item 19) which should be used to connect the MI16 enclosure to the nearest machine ground. 20 MI16 AUDIO DIAGNOSTICS An audio facility, with adjustable volume, is provided on the MI16 Interface to permit the identification of interference sources. In the event of functional disturbances that suggest radio interference, the audio facility should be used:
Set the audio volume to maximum, using the buttons on the front panel of the MI16. When the RMP3 is active a continuous tone should be audible, the tone changes when the probe is triggered. With the RMP3 inactive no tone should be audible; only background noise. In either condition the sound should be observed and any unusual sounds noted. The frequency of occurrence may then be correlated to adjacent machinery
(arc welders, paging devices) to identify the interference source. If the source of interference cannot be eliminated, then a change in transmission channel is recommended. MI16 OUTPUT WAVEFORMS PROBE Seated Probe switch on Triggered Seated Probe trigger Probe reseat Error low received signal (RX) Error clear Low battery Probe switch off MI 16 OUTPUTS Solid State Relay PROBE STATUS Relay Open Normally Open Closed PROBE STATUS Open Normally Closed Closed ERROR Normally Closed LOW BATTERY Normally Open Open Closed Open Closed MI16 PANEL MOUNTING KIT optional The MI16 interface panel mounting kit (Renishaw Part No. A-2056-0005) allows the interface to be mounted in flat panel when a section of the panel is cut out. All MI 16 front features are neatly displayed. PSU3 POWER SUPPLY UNIT optional 21 dimensions mm (in) 183mm (7.2in) 44mm (1.73in) Self adhesive foot 12,7mm (0.5in) Green LED 140mm (5.5in) 3.5mm
(0.14in) The PSU3 supplies power for the MI16 interface when a 24V 2V dc power supply is not available from the CNC machine. The PSU3 is designed for use world-wide. INPUT Power to the PSU3 is provided via an IEC mains connector 85 - 264V ac. 47 - 66Hz. 25W maximum. OUTPUT 24V 2V dc 0,5 A maximum The PSU3 is over voltage and over current protected. 22 Orange LED OM16 OPTICAL MODULE optional Distance L metres (feet) OM16 angle A 1 2 3
(3.28)
(6.56)
(9.84) 20 15 10 A L OPERATING ENVELOPE The OM16 window and RMP2 LEDs should be wiped clean periodically to remove coolant residues. Operation outside the temperatures specified for operational use (5C to 50C / 41F to 158F ) may result in some reduction in transmission range. The maximum recommended distance between the OM16 and RMP3 is 3 metres. OM16 FUNCTION An M code from the CNC machine control causes the OM16 to send an optical switch on or switch off signal to the probe/RMP3. The appropriate activation mode is selected and programmed from the MI16 Interface. The ring of LEDs around the probe body receive OM16 optical signals in any probe orientation, provided optical transmitter and receiver LEDs are mutually in each other view. OM16 MOUNTING The module may be mounted directly to the machine guarding, using the M32 locking nuts provided on the OM16 body. Alternatively a mounting bracket is supplied with the OM16 module. The bracket securing screws can be loosened to allow the OM16 LEDs to be directed towards the probe LEDs. Screws are then re-tightened. The mounting bracket accepts an M10 size bolt for attachment to guarding or bulkheads. OM16 WINDOW The chosen position for the OM16 should be selected to avoid direct impact of machining swarf on the OM16 window. Although the window is 4mm thick toughened glass, long term erosion will eventually reduce optical signal strength. OM16 LED An orange LED is lit when a signal is sent. To assist monitoring system status, the orange LED must be visible to the operator during use. i
) n 1 5
. 1
m m 3
. 8 3 OM16 OPTICAL MODULE dimensions mm (in) M32x1.5 29mm
(1.14in) i
) n 6 3
. 2
m m 0 6 i
) n 9 3
. 3
m m 6 8 23 32.5mm (1.28in) 17.5mm (0.69in) 10mm (0.39in) m m 5 2 i
) n 8 9
. 0
i
) n 7 9
. 1
m m 0 5 112.5mm (4.43in) 137.5mm (5.41in) 51mm (2.01in) 10.5mm
(0.04in) WIRING CONNECTIONS The OM16 is connected to the MI16 Interface with 25 metres of cable. The cable uses four conductors and the screen. These should be connected as below:
Cable screen Connect to ground (MI16 pin 4 - see page 19). Red and Yellow Connect both to the +ve OM16 pin on the MI16 Interface
(MI16 pin 5 - see page 19). Blue and Green Connect both to the -ve OM16 pin on the MI16 Interface
(MI16 pin 6 - see page 19). SEALING The OM16 is sealed to IP68. A gland suitable for sealing to flexible conduit is supplied as stan-
dard. The OM16 cable should be protected by flexible conduit. The recommended type is Thomas and Betts SHURESEAL 1/4in, Part No. TBEF 0250-50, or equivalent. 24 BATTERY Cover seal Battery cover
(2) IMPORTANT Insert battery as shown on label 2,5mm AF
(1) Screw Remove cover to replace exhausted battery 1. Slacken screws (1) and remove battery cover (2). 2. Remove battery (3). Do not remove second cover, to change battery. Probe/shank mounting and stylus on-centre adjustment - remove second cover 3. Remove screw (4) and battery cover (5). To replace battery covers 4. Check that battery cover seals are seated, and lubricate seals lightly with a mineral oil or grease. 5. Replace cover (5) - with Renishaw logo. 6. Replace battery with polarity as shown on label, 7. Replace battery cover (1)
(with battery symbol). Tighten battery cover screws to 1,1 Nm (0.8 lbf.ft). Probe battery Power for the probe is supplied by one PP3 9V alkaline or lithium battery. It is essential to select the type listed in chart, or equivalent. Low battery warning When the MI 16 Low Battery LED lights up, battery voltage
(5) Battery cover
(4) Screw
(3) Type PP3 9V battery DO NOT leave exhausted battery in probe Dispose of exhausted batteries in accordance with local regulations is low and the end of useable battery life is approaching. (The Low Battery LED will only light up during the probe operating mode). The machine control may also be programmed to flag up a Low Battery Alarm. Typical battery reserve life Using an alkaline battery at 5% usage, the probe will typically continue to operate for 8 hours, after the MI 16 Low Battery LED lights up. Dead battery indication When the battery voltage drops below the threshold where performance can be guaranteed, a probe output relay will also be forced into its open state, causing the machine to stop, until a new battery is inserted. The probe will revert to the stand-by mode after changing the battery. TYPICAL BATTERY LIFE EXPECTANCY BATTERY TYPE Stand-by 5% usage
(72 min/day) Continuous Alkaline PP3 MN1604 (Duracell) Lithium PP3 U9VL-FP 365 days 31 days 38 hours 730 days 64 days 80 hours MODES OF OPERATION 25 The RMP3 transmission module can be switched on and off by a number of different methods:
All options are selectable on the MI16 interface, and programmed into the RMP3 from the MI16
- see page 26. When a particular option has been selected, all other options are disabled. A standard RMP3 allows any of the options to be selected except the shank switch method, which requires a dedicated shank. MP18 PROBE SWITCH ON / SWITCH OFF OPTIONS Note for M code probe activation, an OM16 is required. TIME OUT PERIOD This is selectable to 30 sec ( 1sec) or 180 sec
( 1sec). With prototype RMP3s or if a Mk1 MI16 is used for programming, then the time out will be 180 sec ( 1sec) DEBOUNCE PERIOD After the probe is switched on it cannot be switched off again until a period of 2 seconds has elapsed. Similarly, after switch off, the probe cannot be switched on again until 2 seconds has elapsed. MODE SWITCH ON METHOD SWITCH OFF METHOD A machine M code causes the OM16 to send an optical signal to the RMP3, which switches it on. A machine M code causes the OM16 to send an optical signal to the RMP3, which switches it off. M code Optical on Optical off M code Optical on Time out off The machine M code causes the OM16 to send an optical signal to the RMP3, which switches it on. Spin on Spin off
(centrifugal switch) The machine spindle is rotated at 500 rev/min ( 50 rev/min), for a minimum of 1 sec to ensure reliable switch on. Spin on Time out off The machine spindle is rotated at 500 rev/min ( 50 rev/min), for a minimum of 1 sec to ensure reliable switch on. The RMP3 will switch off once the timeout period elapses since the last probe trigger, or since the RMP3 was last switched on (whichever was later). The machine spindle is rotated at 500 rev/min ( 50 rev/min), for a minimum of 1 sec to ensure reliable switch off. The RMP3 will switch off once the timeout period elapses since the last probe trigger, or since the RMP3 was last switched on (whichever was later). MP18-S PROBE WITH SHANK SWITCH The MP18-S, is supplied with a modified shank incorporating a shank switch. Switch on occurs when the shank is inserted into the machine spindle causing the switch to depress and switch the probe on. The probe switches off when the probe is removed from the machine spindle. The shank switch option is selected from the MI16 machine interface - see page 26. TAKE CARE Ensure that the shank switch is not depressed when the probe is stored in the machine tool carousel. 26 MODE AND CHANNEL SELECTION The MI16 Interface and probe/RMP3 transmission module are factory set to Channel 1. The following procedure must be followed to set or change the transmission channel. The programming of the transmission channel and the RMP3 activation mode is carried out on the MI16 and transferred to the RMP3 by a short range optical link. To program the RMP3 it is necessary to bring the RMP3 close to the front panel of the MI16 Interface. This should be catered for when selecting the MI16 Interface mounting and positioning. PROGRAMMING THE MI16 INTERFACE CONFIRM LED ACTIVATION MODES CHANNEL NUMBER DISPLAY
1. The programming mode is entered by 4. When a Mk2 MI16 is used, the mode selection pressing simultaneously the programming
+ and buttons on the front of the MI16 Interface, for approximately 5 seconds. The Channel Number and Activation Mode displays will start to flash, to indicate that the Interface is ready to be programmed. 2. Select the required channel by using the
+ button to increase the channel number, and the - button to reduce the channel number. 40 channels are available. 3. To change the activation method, simultaneously press both the + and -
buttons. Each simultaneous press will cause the activation method to change. The MI16 can be cycled through all the available activation methods. 5. will select 30 sec ( 1sec) time out when the time out LED is green, or 180 sec ( 1sec) when the time out LED is red. If neither key is pressed for 5 seconds the channel number stops flashing, followed by a double audible beep, and the CONFIRM LED lighting on the MI16 Interface front panel for a period of 10 seconds. This indicates that programming of the interface is complete. If only a change in channel is required, with no change in activation method, action 5. may be taken after action 2. 27 RADIO FREQUENCY and CHANNEL SEPARATION The frequency range is divided into separate channels, each channel having a typical bandwidth of 25kHz, to permit many systems to operate in close proximity without the danger of interference. The operating channel is programmed by push buttons on the MI16. Channel Frequency No MHz Channel No Frequency MHz 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 224.500 224.525 224.550 224.575 224.600 224.625 224.650 224.675 224.700 224.725 224.750 224.775 224.800 224.825 224.850 224.875 224.900 224.925 224.950 224.975 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 225.000 225.025 225.050 225.075 225.100 225.125 225.150 225.175 225.200 225.225 225.250 225.275 225.300 225.325 225.350 225.375 225.400 225.425 225.450 225.475 28 PROGRAMMING THE RMP3 TRANSMISSION MODULE 1. To enter the RMP3 programming mode, remove the probe battery cover and battery for a period of 10 seconds minimum. 2. Replace the battery cover and battery. A double green flash from the RMP3 STATUS LED indicates the RMP3 is in programming mode. The mode is active for one minute, after which the RMP3 returns to standby status. 3. To program the RMP3 (or check its current programming configuration) align the RMP3 programming LED with those LED Colour - black RMP3 PROGRAMMING LED Colour - water clear on the MI16 front panel. The MI16 programming LEDs are shown below. Programming LEDs. 6. 7. If the RMP3 is now moved away from the MI16 Interface no programming will take place. (Useful if the user wishes to verify the current configuration of the RMP3). If the RMP3 is held in position (see action 4) a continuous audible beep will be emitted for 5 seconds, to warn that programming is about to occur. If the RMP3 is moved out of range during this period no programming occurs. 8. At the end of the above period programming occurs. 9. Successful programming is indicated by a double audible beep and the CONFIRM LED lighting on the MI16 Interface front panel for 5 seconds. The RMP3 remains active until the one minute allowed for programming has elapsed. At this point the system switches to standby mode and is ready for use. MI16 INTERFACE 10. Incorrect programming is indicated by continuous audible beeps, flashing of the channel number display and the CONFIRM LED not lighting. In this event the programming procedure should be repeated. MI16 INTERFACE 4. The MI16 and the RMP3 programming LEDs must be aligned and held within 100mm (3.93in) of each other for the optical link to be established. 5. Once the optical link has been established the interface emits an audible beep every second for 5 seconds and the front panel displays the current RMP3 configuration. 29 MAINTENANCE STYLUS SPRING PRESSURE ADJUSTMENT Gauging force Locknut 7mm AF Stop Adjusting screw Stylus 2.0mm AF 2.5mm AF Align contact pins before connecting probe head. Spring pressure within the probe causes the stylus to sit in one unique position, and return to this position following each stylus deflection. Stylus pressure is set by Renishaw. The user should only adjust spring pressure in special circumstances e.g. excessive machine vibration or insufficient pressure to support the stylus weight. To adjust spring pressure, remove the probe head to gain access to the spring pressure adjusting screw. Slacken the locknut, and turn the adjusting screw anticlockwise to reduce pressure (more sensitive) or clockwise to increase pressure (less sensitive). A stop prevents damage, which could be caused by overtightening the adjusting screw. Finally tighten the locknut to 1Nm (0.74lbf.ft) and replace the probe head. DO NOT rotate probe head when located in radio module ENSURE THAT THE OMP IS KEPT CLEAN. DO NOT ALLOW COOLANT OR PARTICLES TO ENTER THE PROBE. STYLUS SPRING PRESSURE ADJUSTMENT AND USE OF STYLI OTHER THAN CALIBRATION STYLUS TYPE, MAY CAUSE REPEATABILITY TO DIFFER FROM THE TEST CERTIFICATE RESULTS. 30 DIAPHRAGM INSPECTION and REPLACEMENT PROBE DIAPHRAGMS The probe mechanism is protected from coolant and debris by two diaphragms, these provide adequate protection under normal working conditions. The user should periodically check the outer diaphragm, for signs of damage and coolant leakage. If this is evident replace the outer diaphragm. The outer diaphragm is resistant to coolant and oils. However if the outer diaphragm is damaged, the inner diaphragm could become weakened with prolonged immersion in certain coolants and oils. The user must not remove the inner diaphragm. If damaged, return the probe to your supplier for repair. OUTER DIAPHRAGM INSPECTION 1. Remove the stylus 2. Unscrew the front cover. 3. 4. To remove outer diaphragm, grip near the Inspect outer diaphragm for damage. middle and pull upwards. INNER DIAPHRAGM INSPECTION 5. Inspect inner diaphragm for damage. If damaged return the probe to your supplier for repair. DO NOT REMOVE INNER DIAPHRAGM OUTER DIAPHRAGM REPLACEMENT 6. Screw tool fully into stylus holder. 7. Fit new diaphragm. 8. The diaphragm must locate centrally in the stylus holder groove. 9. Press diaphragm to expel trapped air. 10. Remove tool. 11. Lightly smear medium grease on front cover lower surface. Then refit cover and tighten. 12. Refit stylus STYLUS HOLDER OUTER DIAPHRAGM INNER DIAPHRAGM STYLUS 1 12 STYLUS TOOL 2 11 3 11 Lightly grease here 4 7 9 6 10 5 8 WARNING:
NEVER ATTEMPT TO REMOVE DIAPHRAGM WITH METAL OBJECTS 31 4mm AF 6 - 8 Nm
(4.4 - 5.9 lbf.ft) Shank Adjusting plate 2,5mm AF 1,1 Nm
(0.8 lbf.ft) SCREW TORQUE VALUES 2,5mm AF 6 - 8 Nm
(4.4 - 5.9 lbf.ft) Special 4mm AF 5,1 Nm
(3.76 lbf.ft) MP18 PROBE Weak link optional for steel shaft styli only 2mm AF Probe head RMP3 Align RMP3 and probe head electrical contacts 7mm AF 1 Nm
(0.74 lbf.ft) 2 Nm
(1.7 lbf.ft) 5mm AF 2 Nm
(1.7 lbf.ft) MP18-S PROBE 3mm AF 2 Nm
(2.21 lbf.ft) 2,5mm AF 1,1 Nm
(0.8 lbf.ft) 2mm AF 1,1 - 3,5 Nm
(1.1 - 2.6 lbf.ft) 2,5mm AF 1,1 Nm
(0.8 lbf.ft) 2,5mm AF 1,1 Nm
(0.8 lbf.ft) 32 PARTS LIST - Please quote the Part No. when ordering equipment Type Part No. Description SYSTEM KITS MP18 KIT MP18 PROBE MP18-S PROBE MP18-S KIT
(ANSI -1985-CAT-SIZE 40) MP18-S KIT
(ANSI -1985-CAT-SIZE 45) MP18-S KIT
(ANSI -1985-CAT-SIZE 50) MP18-S KIT
(ANSI -1978-SIZE 40) MP18-S KIT
(ANSI -1978-SIZE 45) MP18-S KIT
(ANSI -1978-SIZE 50) MP18-S KIT
(DIN 69871-SIZE 40) MP18-S KIT
(DIN 69871-SIZE 45) MP18-S KIT
(DIN 69871-SIZE 50) MP18-S KIT
(BT-1982-SIZE 40) MP18-S KIT
(BT-1982-SIZE 50) MP18 probe, MI16, RMM x two, shank adaptor, tool kit. MP18 probe with battery, adaptor plate and tool kit. MP18-S probe with battery, adaptor plate and tool kit. MP18-S probe, MI16, RMM x two, shank adaptor, shank, tool kit. MP18-S probe, MI16, RMM x two, shank adaptor, shank, tool kit. MP18-S probe, MI16, RMM x two, shank adaptor, shank, tool kit. MP18-S probe, MI16, RMM x two, shank adaptor, shank, tool kit. MP18-S probe, MI16, RMM x two, shank adaptor,shank, tool kit. MP18-S probe, MI16, RMM x two, shank adaptor, shank, tool kit. MP18-S probe, MI16, RMM x two, shank adaptor, shank, tool kit. MP18-S probe, MI16, RMM x two, shank adaptor, shank, tool kit. MP18-S probe, MI16, RMM x two, shank adaptor, shank, tool kit. MP18-S probe, MI16, 2 off RMMs, shank adaptor, shank, tool kit. MP18-S probe, MI16, RMM x two, shank adaptor, shank, tool kit. Please contact Renishaw All MP18-S versions are custom products, requiring a separate quotation and price. USER REGION USA 33 PARTS LIST - Please quote the Part No. when ordering equipment Type Part No. Description SYSTEM COMPONENTS RMP3 224 FCC A-2249-0250 RMP3 transmission module with tool kit. RMP3 S 224 FCC A-2249-0251 RMP3 transmission module and tool kit. shank switch version (without shank and adaptor plate) Shank adaptor A-2107-0031 Shank adaptor plate for attachment to MP18 style shanks. Shank adaptor A-2249-0134 Shank adaptor plate kit for shank switch for attachment to MP18-S style shanks. RMM side exit A-2056-0360 RMM antenna - side exit cable. RMM rear exit A-2056-1017 RMM antenna - rear exit cable. MI16 A-2137-0160 MI16 interface with connector. OM16 kit A-2137-0401 OM16 optical module and mounting bracket. Battery Stylus P-BT03-0001 Duracell MN1604, PP3, 9V. A-5000-3709 PS3-1C stylus, 6 ball x 50mm long with ceramic stem. Weak link kit A-2085-0068 Kit comprising : stylus weak link stem x two, spanner and instruction sheet. Weak link stem M-2085-0069 Stylus weak link stem for use with steel shaft styli. Spanner P-TL09-0003 Spanner for weak link stem. Styli PSU3 power supply Software See Data Sheet H-1000-3200. See Data Sheet H-2000-2200 See Data Sheet H-2000-2289. USER REGION USA 34 ADDENDUM 1 Radio system component compatibility Complete MP14 and MP16 probe systems may be exchanged with complete MP18 and MP18-S probe systems. Component compatibility NOT ALL MP18 components are compatible with components used with the earlier MP14 radio transmission system. Components with identical model name/number are interchangeable between systems. Earlier MP14 systems incorporating an RMP and the MI14 interface DO NOT function with current systems using the RMP2
(used with MP16), RMP3 (used with MP18), MI16 interface and the OM16 optical module. Probe/RMP2/RMP3 The RMP2 and RMP3 will communicate with the RMM , provided they are set to operate on the same channel. The MP18 probe is smaller and lighter than the MP14 and MP16 probes. RMM Antenna is the same for all MP14, MP16 and MP18 224 MHz version. Interface unit The MI14 interface has been replaced by the MI16 interface, both units are the same size. All electrical outputs and inputs to the MI16 Interface remain unchanged from the MI14 Interface.
(Note that a 16 pin plug is required for connection to the MI16 Interface rather than the 14 pin connector used on the MI14 Interface. The two extra contacts allow connection to the OM16 Optical Module). ADDENDUM 2 Shank manufacturing details for MP18 35 A B Dimensions A and B are shown on page 12 GAUGE LINE 6 (0.24) 4,5 (0.18) 4,3 (0.17) 20,10 (0.791) 20,02 (0.788) 0.8
(32) Two holes M8 x 1,25 Thro. equi-spaced into bore For reference only 25,0 (0.984) 24,8 (0.976) Not convex 0,05 C
) 2 3
8
. 0 C 27,5 (1.08) 25,5 (1.00) Shank manufacturing details to prepare shank for MP18 shank adaptor 0,02
(shank without shank switch) 36 ADDENDUM 3 SELECTION OF MI16 SENSITIVITY The MI16 MK3 version has an integral switch which allows the selection of the radio reception sensitivity level. The switch is located on the rear panel. Switch : 3 positions The sensitivity can be selected from three levels:
HIGH :
LOW :
The reception sensitivity is strong. The reception distance is longer. The parasitic sensitivity is increased. The reception sensitivity is lower. The reception distance is smaller. The parasitic sensitivity is diminished. MEDIUM : This position is a compromise between the two previous. ADVICE ON SELECTION OF SWITCH POSITION The choice of the switch position is dependent on the probe power version sold in the different markets. The following positions are recommended:
HIGH = USA Market LOW = CEE Market MEDIUM = JAPAN Market Note : The choice of the MI16 interface sensitivity does not replace the procedures for the antenna installation (see RMM2 ANTENNA-Operating envelope and installation). www.renishaw.com Renishaw plc, New Mills, Wotton-under-Edge, Gloucestershire, GL12 8JR, United Kingdom. International Tel +44 1453 524 524 National Tel 01453 524 524 [07000 RENISHAW]
International Fax +44 1453 524 901 National Fax 01453 524 901 Telex 437120 RENMET G email genenq@renishaw.com GROUP COMPANIES Renishaw Latino Americana Ltda., Calada dos Crisntemos 22, C.C. Alphaville, C.e.p. 06453-000, Barueri SP, Brazil. Tel +55 11 7295 2866 Fax +55 11 7295 1641 email brazil@renishaw.com Renishaw (Hong Kong) Ltd., Unit 4A, 3/F, New Bright Building, 11 Sheung Yuet Road, Kowloon Bay, Hong Kong. The Peoples Republic of China. Tel +852 2753 0638 Fax +852 2756 8786 email hongkong@renishaw.com Renishaw S.A., 15 rue Albert Einstein, Champs sur Marne, 77437 Marne la Valle, Cedex 2, France. Tel +33 1 64 61 84 84 Fax +33 1 64 61 65 26 email france@renishaw.com Renishaw GmbH, Karl-Benz Strasse 12, 72124 Pliezhausen, Germany. Tel +49 7127 9810 Fax +49 7127 88237 email germany@renishaw.com Renishaw S.p.A., Via dei Prati 5, 10044 Pianezza, Torino, Italy. Tel +39 011 9 66 10 52 Fax +39 011 9 66 40 83 email italy@renishaw.com Renishaw KK, Across City Nakano-Sakaue, 38-1, Chuo 1-chome, Nakano-ku, Tokyo 164-0011, Japan. Tel +81 3 5332 6021 Fax
+81 3 5332 6025 japan@renishaw.com email Renishaw Iberica S.A., Edificio Ocano, Calle Garrotxa 10-12, Parque Ms Blau, 08820 Prat de LLobregat, Barcelona, Spain. Tel +34 93 478 21 31 Fax +34 93 478 16 08 email spain@renishaw.com Renishaw A.G., Poststrasse 5, CH 8808 Pfffikon, Switzerland. Tel +41 55 410 66 66 Fax +41 55 410 66 69 email switzerland@renishaw.com Renishaw Inc., 5277 Trillium Blvd, Hoffman Estates, Illinois 60192, U.S.A. Tel +1 847 843 3666 Fax +1 847 843 1744 email usa@renishaw.com REPRESENTATIVE OFFICES Australia Melbourne
+61 3 9553 8267
+61 3 9592 6738 Tel Fax email australia@renishaw.com The Peoples Republic of China Beijing
+86 10 6410 7993
+86 10 6410 7992 Tel Fax email china@renishaw.com Indonesia Jakarta Singapore Tel Fax email
+62 21 428 70153
+62 21 424 3934 indonesia@renishaw.com
+65 897 5466
+65 897 5467 Tel Fax email singapore@renishaw.com REPRESENTATIVE OFFICES Taiwan Tel Taichung city Fax India Bangalore email Tel Fax email
+886 4 251 3665
+886 4 251 3621 taiwan@renishaw.com
+91 80 509 5419
+91 80 509 5421 india@renishaw.com LIAISON OFFICE South Korea Tel Fax Seoul email southkorea@renishaw.com
+82 2 565 6878
+82 2 565 6879 Renishaw reserves the right to change specifications without notice. Renishaw 2000 Issue date 09.00
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2002-10-01 | 224.5 ~ 225.475 | DXX - Part 15 Low Power Communication Device Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2002-10-01
|
||||
1 | Applicant's complete, legal business name |
Renishaw plc
|
||||
1 | FCC Registration Number (FRN) |
0007524929
|
||||
1 | Physical Address |
New Mills, Wotton Under Edge
|
||||
1 |
Gloucestershire GL12 8JR, N/A
|
|||||
1 |
United Kingdom
|
|||||
app s | TCB Information | |||||
n/a | ||||||
app s | FCC ID | |||||
1 | Grantee Code |
KQG
|
||||
1 | Equipment Product Code |
RMP3-224
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
R******** W********
|
||||
1 | Title |
Product Compliance & Quality Analyst
|
||||
1 | Telephone Number |
44145********
|
||||
1 | Fax Number |
44145********
|
||||
1 |
r******@renishaw.com
|
|||||
app s | Technical Contact | |||||
1 | Firm Name |
RENISHAW SA
|
||||
1 | Name |
S**** C******
|
||||
1 | Physical Address |
15, RUE ALBERT EINSTEIN
|
||||
1 |
CEDEX 2
|
|||||
1 |
MARNE LA VALLEE, 77437
|
|||||
1 |
France
|
|||||
1 | Telephone Number |
33 1 ********
|
||||
1 | Fax Number |
33 1 ********
|
||||
1 |
s******@renishaw.com
|
|||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DXX - Part 15 Low Power Communication Device Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | PROBE FOR MACHINE TOOLS TELEMETRY TX | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | Yes | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
EMITECH Angers
|
||||
1 | Name |
O**** R********
|
||||
1 | Telephone Number |
33-24********
|
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1 | Fax Number |
33-24********
|
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1 |
o******@emitech.fr
|
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Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 224.50000000 | 225.47500000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC