Dual Check Safety for SD7 Operators manual Page 72

Operators manual

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CAUTION

When attaching/detaching this unit, a screwdriver is inserted at an

angle. So, a sufficiently large working space must be provided on

the both sides of this unit.

As a guideline, if the front surface of an adjacent unit is flush with

or set back from the front surface of this unit, provide about 20

mm between the adjacent unit and this unit. If the front surface of

the adjacent stands forward of the front surface of this unit,

provide about 70 mm between the adjacent unit and this unit.

When installing this unit near the side of the cabinet, provide

about 70 mm between this unit and the cabinet.

Working space around the I/O unit

GFKE-0218A-EN

4.INSTALLATION

Contents Summary of Dual Check Safety for SD7 Operators manual

Page 1FANUC Series 16*/160*/160*s-MODEL B FANUC Series 18*/180*/180*s-MODEL B FANUC Series 21*/210*/210*s-MODEL B Dual Check Safety OPERATOR’S MANUAL for SD7 GFKE-0218A-EN
Page 2Ȧ No part of this manual may be reproduced in any form. Ȧ All specifications and designs are subject to change without notice. In this manual we have tried as much as possible to describe all the various matters. However, we cannot describe all the matters which must not be done, or which cannot be
Page 3GFKE-0218A-EN SAFETY PRECAUTIONS SAFETY PRECAUTIONS This manual includes safety precautions for protecting the user and preventing damage to the machine. Precautions are classified into Warning and Caution according to their bearing on safety. Also, supplementary information is described as a Note.
Page 4
Page 5GFKE-0218A-EN TABLE OF CONTENTS TABLE OF CONTENTS DEFINITION OF WARNING, CAUTION, AND NOTE .................................s-1 1 OVERVIEW ............................................................................................. 1 1.1 DIRECTIVE AND STANDARDS .....................................
Page 6TABLE OF CONTENTS GFKE-0218A-EN 3.9.1 Sequence of the Programmable Safe-Related I/O Signal Function........................36 3.9.2 C Language Executor .............................................................................................38 3.10 SAFETY POSITION SWITCH SIGNAL .................
Page 7GFKE-0218A-EN TABLE OF CONTENTS 6.4.2 Simple Electronic Gear Box and Electronic Gear Box 2-pair..............................126 6.4.3 Multi-path Control................................................................................................126 6.4.4 Closed Loop Control .....................
Page 8TABLE OF CONTENTS GFKE-0218A-EN 10.2.2 Guard Open Request Signal (ORQ) .....................................................................171 10.2.3 Test Mode Signal (OPT) ......................................................................................171 10.2.4 Guard Unlock Signal (*LGD), G
Page 9GFKE-0218A-EN TABLE OF CONTENTS 11.6.3 Signals ..................................................................................................................206 11.6.3.1 Details on signals............................................................................................. 206 11.6.3.2 S
Page 10GFKE-0218A-EN 1.OVERVIEW 1 OVERVIEW Setup for machining, which includes attaching and detaching a workpiece to be machined, and moving it to the machining start point while viewing it, is performed with the protection door opened. The dual check safety function provides a means for ensuring a high l
Page 111.OVERVIEW GFKE-0218-EN/02 1.1 DIRECTIVE AND STANDARDS 1.1.1 Directives Machine tools and their components must satisfy the EC directives listed below. The FANUC CNC systems with the dual check safety function are compatible with all of these directives. Directive Directive 98/37/EC 1998 Safety of m
Page 12GFKE-0218A-EN 1.OVERVIEW 1.2 DEFINITION OF TERMS 1.2.1 General Definition of Terms Reliability and safety Reliability and safety are defined by EN292-1 as follows: Term Definition Reliability Capability of a machine, machine component, or equipment to perform its required function under a specified
Page 131.OVERVIEW GFKE-0218-EN/02 1.3 BASIC PRINCIPLE OF DUAL CHECK SAFETY 1.3.1 Features of Dual Check Safety Dual Check Safety function has the following features. • Two-channel configuration with two or more independent CPUs • Cross-check function for detecting latent errors Detection A servo motor dete
Page 14GFKE-0218A-EN 1.OVERVIEW 1.3.2 Compliance with the Safety Standard (EN954-1, Category 3) The dual check safety function satisfies the requirements of Category 3 of the safety standard EN954-1. Category 3 requires the following: • The safety function of a safety-related portion must not degrade when
Page 151.OVERVIEW GFKE-0218-EN/02 Output signal safety A signal is output (via two paths) to the relay used to shut off the power to the motor drive circuit. An error is detected by a MCC off Test. For detection of built-up failures, a MCC off Test needs to be conducted at certain intervals. This MCC off T
Page 16GFKE-0218A-EN 1.OVERVIEW 1.3.2.3 MCC off Test The MCC is shut off using two CPUs: a CNC CPU and monitor CPU. To detect a latent error in the MCC shutoff paths forcibly, a MCC off Test is conducted. This test is essential to dual check safety. A MCC off Test must be conducted at specified times (afte
Page 171.OVERVIEW GFKE-0218-EN/02 1.3.2.5 Remaining risks The machine tool builder is to make a failure analysis in connection with the control system and determine the remaining risks of the machine. The dual check safety function has the following remaining risks: • The safety function is not active unti
Page 18GFKE-0218A-EN 1.OVERVIEW • Amplifiers (drive power modules) and motors must always be replaced by the same equipment type or else the parameters will no longer match the actual configuration and cause Dual check Safety to respond incorrectly. • There is a parameter that MCC off test is not to be mad
Page 191.OVERVIEW GFKE-0218-EN/02 1.4 GENERAL INFORMATION The following requirements must be fulfilled for the Dual-Check System: • All conditions of the certification report has to be respected. • The procedures for the changes in the System (either HW or SW) should be referred to maintenance manual (B-63
Page 20GFKE-0218A-EN 1.OVERVIEW [CNC SE INTERFACE COURSE] Training course offered to the engineers who design CNC machine tools or CNC application system for the first time. This course is also suitable for customers who provide to retrofitting, to develop an original CNC machine tools or new application o
Page 212.SYSTEM CONFIGURATION GFKE-0218-EN/02 2 SYSTEM CONFIGURATION The dual check safety function has the following components. Applicable CNC FANUC Series 16i/18i/21i/160is/180is/210is/160i/180i/210i (LCD-mounted type) FANUC Series 16i/18i/21i/160is/180is/210is/160i/180i/210i (stand-alone type) Number o
Page 22GFKE-0218A-EN 2.SYSTEM CONFIGURATION I/O • I/O unit (I/O Link) • I/O module (FSSB) Software • Dual Check Safety software option Detector system - Feed axis detector • α Pulsecoder • αi Pulsecoder • β Pulsecoder • βi Pulsecoder • Separate detector - Spindle detector • M sensor • MZ sensor • BZ sensor
Page 233.SAFETY FUNCTIONS GFKE-0218-EN/02 3 SAFETY FUNCTIONS - 14 -
Page 24GFKE-0218A-EN 3.SAFETY FUNCTIONS 3.1 APPLICATION RANGE The dual check safety function assumes the following configuration: A) One protective door is provided. B) If the protective door is closed, safety is assured. C) One safety area is provided. However, up to four protective doors with a lock can
Page 253.SAFETY FUNCTIONS GFKE-0218-EN/02 Safe machine position monitoring This function checks that the position on a servo axis is within a specified range, using two CPUs in redundant mode. If a position exceeding the range is detected, the system judges that an abnormal event has occurred. If an abnorm
Page 26GFKE-0218A-EN 3.SAFETY FUNCTIONS The safe speed of the spindle motor is checked by the CNC CPU and spindle CNC CPU in redundant mode. Dual monitoring of emergency stop signal Emergency Spindle stop CPU CNC Cross-check Spindle Dual monitoring of protective door state CPU motor SPM Protective door Pro
Page 273.SAFETY FUNCTIONS GFKE-0218-EN/02 Programmable safe-related I/O signals For use by the machine tool builder for an arbitrary purpose, 16 points of input signals and 8 points of output signals are available. These signals are monitored in dual mode. By using the C language executor and the PMC ladde
Page 28GFKE-0218A-EN 3.SAFETY FUNCTIONS 3.2 BEFORE USING THE SAFETY FUNCTION 3.2.1 Important Items to Check Before Using the Safety Function When using the safety function for the first time upon assembly of the machine, replacing a part, or changing a safety parameter (such as a safety speed or safe range
Page 293.SAFETY FUNCTIONS GFKE-0218-EN/02 3.3 STOP 3.3.1 Stopping the Spindle Motor Because the spindle motor is an induction type motor, power-down during rotation causes the motor to continue rotating for a certain amount of time. From a safety standpoint, the motor may have to be stopped immediately. If
Page 30GFKE-0218A-EN 3.SAFETY FUNCTIONS 3.3.2 Stopping the Servo Motor Because the servo motor is a synchronous motor, power-down results in a dynamic brake stop. The dynamic brake stop is electric braking in which the excited rotor is isolated from the power source and the generated electric energy is use
Page 313.SAFETY FUNCTIONS GFKE-0218-EN/02 Controlled stop state The power to the motor is not shut off. The servo motor and the spindle motor are controlled to stop. In the controlled stop state of either motor, the safety function is active if the condition for enabling the safety function is satisfied (t
Page 32GFKE-0218A-EN 3.SAFETY FUNCTIONS 3.4 SAFE-RELATED I/O SIGNAL MONITORING A set of safe-related I/O signals are connected to the I/O Link and the servo FSSB through separate paths. The two independent CPUs individually check the input signals. If a mismatch between two corresponding signals is found,
Page 333.SAFETY FUNCTIONS GFKE-0218-EN/02 This section briefly describes the signals. For details, see Chapter 5, "OPERATION." For specific connections, see the sample system configuration in Chapter 10. CNC Machine I/O UNIT DI I/O LINK CNC DO CPU Cross check FSSB I/O DI FSSB Monitor DO CPU Duplicated I/O
Page 34GFKE-0218A-EN 3.SAFETY FUNCTIONS Safe-related I/O 1. *ESP Emergency stop signal (input) Emergency stop signal. The signal is monitored in redundant mode. The signal is connected to the *ESP input of the servo amplifier as well. 2. SGDn Guard state signal (input) The signal is provided for double mon
Page 353.SAFETY FUNCTIONS GFKE-0218-EN/02 Signals other than safe-related I/O The following signals are not safe-related signals (are not checked in redundant mode) but are important signals in the system. The machine tool builder must create an appropriate Ladder program. IMPORTANT The Ladder program cann
Page 36GFKE-0218A-EN 3.SAFETY FUNCTIONS Guard open request signal and guard unlock signal CNC (PMC) Door open request 24V X G Protective door Ladder ORQ ORQ-I F Y LGD Ladder LGD-O The figure shows a sample connection of the protective door open request switch and the guard unlock signal. In the normal stat
Page 373.SAFETY FUNCTIONS GFKE-0218-EN/02 Timing diagram from door close state to door open state The following diagram shows the timings at which the door is opened and closed again. ORQ_P ORQ *LGD *LGD_P1 (Actual door unlock signal) SGD_P SGD2 Door closed Door closed Actual door status Door opened t (1)
Page 38GFKE-0218A-EN 3.SAFETY FUNCTIONS 3.5 EMERGENCY STOP The emergency stop signal is monitored in redundant mode. When the emergency stop is input, the servo motor slows down to a stop (*) and enters the dynamic brake stop. The spindle slows down to a stop(*) as instructed by the PMC, and the power is s
Page 393.SAFETY FUNCTIONS GFKE-0218-EN/02 3.6 SAFE SPEED MONITORING When the guard open request signal is input, the dual check safety function starts monitoring whether a safety speed is kept on each feed axis and spindle. If the speed does not exceed the safety speed range and if the machine position is
Page 40GFKE-0218A-EN 3.SAFETY FUNCTIONS IMPORTANT 3 Before inputting the guard open request signal, reduce each axial speed and spindle speed to a safety speed range or below. If a speed exceeds the limit, the guard open request signal is not accepted (the door is not unlocked). If the door is forced open,
Page 413.SAFETY FUNCTIONS GFKE-0218-EN/02 3.7 SAFE MACHINE POSITION MONITORING While the door is open, the dual check safety function checks whether the position on each feed axis is within the safe machine position range defined by safety parameters. If it detects a machine position beyond the safety rang
Page 42GFKE-0218A-EN 3.SAFETY FUNCTIONS At power-on, the safety function does not work. After power-on, the CNC checks whether a reference position return is completed. If the reference position return is completed and if the protective door is open, safe machine position monitoring and safety speed monito
Page 433.SAFETY FUNCTIONS GFKE-0218-EN/02 3.8 MCC OFF TEST A MCC off Test must be carried out in intervals of 24 hours, so that the safety functions would not be damaged by a possible cause of failure. A message telling that the MCC off Test must be carried out is displayed at power-on or when 24 hours hav
Page 44GFKE-0218A-EN 3.SAFETY FUNCTIONS Timing chart of MCC off Test During test MCC test start (User signal) Brake on Vertical axis brake 500 ms or more Test mode signal OPT (QG1531 ) Servo-off signal SVF8-1(QG1016 -QG1009h) MCC off Test execution MCC off Test being request signal RQT executed (IF1531 ) P
Page 453.SAFETY FUNCTIONS GFKE-0218-EN/02 3.9 PROGRAMMABLE SAFE-RELATED I/O SIGNALS 3.9.1 Sequence of the Programmable Safe-Related I/O Signal Function CNC C language executor User logic [f] Monitor [g] [k] speed/ position, Monitor General output signal (8 points) etc. safe-related [l] output signal Monito
Page 46GFKE-0218A-EN 3.SAFETY FUNCTIONS The programmable safe-related I/O signal function operates according to the sequence described below. See the figure (outline of this function) provided on the previous page. [a] The safe-related input signals (*ESP, *SMC, GDL, SGDn, ORQn, OPT, safety speed/safety po
Page 473.SAFETY FUNCTIONS GFKE-0218-EN/02 Monitoring of abnormal state If a mismatch between the state of the signal posted via the PMC and the state of the signal posted via the FSSB lasts for a certain period of time or more, the occurrence of a safety-related error is assumed. The CNC CPU and the monito
Page 48GFKE-0218A-EN 3.SAFETY FUNCTIONS (3) Input of actual speed (F) on a controlled axis (4) Input of actual spindle speed (S) (5) Input of an absolute position on a controlled axis (6) Input of a machine position on a controlled axis (7) Input of a relative position on a controlled axis (8) Input of a d
Page 493.SAFETY FUNCTIONS GFKE-0218A-EN (16) Reading of programmable safe-related input signals This function is equivalent to the pmc_rdsafeprgio() function. [Input] Function code iodate[0] = 136 Data length iodata[2] = 0 Data number iodata[3] = 0 Data attribute iodata[4] = 0 [Output] Completion code ioda
Page 50GFKE-0218A-EN 3.SAFETY FUNCTIONS Reading of programmable safe-related input signals [Function name] pmc_rdsafeprgio [Format] #include int pmc_rdsafeprgio( int datano , struct iodbsaftyprg *buf ) ; struct iodbsaftyprg { int datano ; /* Data number */ int dummy ; /* Not used */ char cdata[
Page 513.SAFETY FUNCTIONS GFKE-0218-EN/02 Writing of programmable safe-related output signals [Function name] pmc_wrsafeprgio [Format] #include int pmc_wrsafeprgio( char data ) ; [Argument] data : Programmable safe-related output signal data [Return value] 0 : Normal termination 6 : The dual ch
Page 52GFKE-0218A-EN 3.SAFETY FUNCTIONS 3.10 SAFETY POSITION SWITCH SIGNAL Output of safety position switch signals When the machine position on a controlled axis is within the allowable range set in safety parameters, a safety position switch signal is output. 1 0 Parameter-set value Parameter-set value •
Page 533.SAFETY FUNCTIONS GFKE-0218-EN/02 Assignment of signals to controlled axes Safety position switch signals can be assigned to arbitrary controlled axes (even the maximum allowable number of points can be assigned to one axis). The safety parameters (No. 13880 to No. 13911) are used for assignment to
Page 54GFKE-0218A-EN 4.INSTALLATION 4 INSTALLATION Except FSSB I/O module, the hardware installation such as field wiring, power supply, etc. should be referred to connection manual (B-63003EN) for CNC units and (B-65162E) for servo amplifier. EMC problem should be referred to EMC guideline manual (A-72937
Page 554.INSTALLATION GFKE-0218A-EN Environmental conditions for servo amplifier The servo amplifier α series must be installed in a sealed type cabinet to satisfy the following environmental requirements: (1) Ambient Temperature Ambient temperature of the unit : 0 to 55°C (at operation) -20 to 60°C (at ke
Page 56GFKE-0218A-EN 4.INSTALLATION 4.1 OVERALL CONNECTION DIAGRAM 4.1.1 For 1-path Mother board LCD display unit 24V-IN(CP1A) 24 VDC power supply 24V-OUT(CP1B) To I/O device MDI UNIT Soft key cable CK2 MDI(CA55) CK1 R232(JD36A) RS-232C I/O device R232(JD36B) RS-232C I/O device Touch panel HDI(JA40) High-s
Page 574.INSTALLATION GFKE-0218-EN/02 Mother board LCD display unit SPDL(JA41) JA7B JY2 SPM JA7A TB2/CZ2 Serial spindle motor Second spindle FSSB(COP10A) COP10B TB2 Axis 1 SVM servo motor COP10A JF1 COP10B TB2 Axis 2 SVM servo monitor COP10A JF1 COP10B TB2 Axis 3 SVM servo motor COP10A JF1 (This diagram as
Page 58GFKE-0218A-EN 4.INSTALLATION 4.1.2 For 2-path Main board I/O module for Machine operator’s panel operator’s panel I/O Link (JD44A) JD1B CE56 JD1A CE57 I/O module for Power connector panel magnetics cabinet JD1B CB150 JD1A To next I/O unit Safe-related and other signals PSM 200VAC 2φ MCC CX1A CX3 200
Page 594.INSTALLATION GFKE-0218-EN/02 From previous SVM (COP10A) Separate detector interface unit COP10B JF101 Separate detector COP10A JF102 Separate detector JF103 Separate detector JF104 Separate detector JA4A Battery Safe-related signals FSSB I/O module Power magnetics CB155A cabinet COP10B CB156A COP1
Page 60GFKE-0218A-EN 4.INSTALLATION Sub CPU board TB1 CXA2B SPM SPDL (JA41) JA7B JYA2 JA7A TB2/CZ2 Spindle motor TB1 CXA2A To next SPM (JA7B) TB1 CXA2B Axis control card SVM1 FSSB (COP10A-1) COP10B JF1 COP10A CZ2 Servo motor To next SVM (COP10B) From previous SVM (COP10A) Separate detector interface unit C
Page 614.INSTALLATION GFKE-0218-EN/02 4.1.3 Loader Control Loader control board TB1 CXA2B Axis control card SVM1 FSSB (COP10A-1) COP10B JF1 COP10A CZ2 Servo motor To next SVM (COP10B) From previous SVM (COP10A) Separate detector interface unit COP10B JF101 Separate detector COP10A JF102 Separate detector J
Page 62GFKE-0218A-EN 4.INSTALLATION 4.2 DI/DO CONNECTION (VIA THE PMC) For DI/DO signals connected via the PMC, the I/O signals of the unit connected to the FANUC I/O Link are to be input to or output from the following addresses, via the PMC: For the layout and descriptions of the signals, see Chapter 5,
Page 634.INSTALLATION GFKE-0218-EN/02 4.3 DI/DO CONNECTION (VIA THE FSSB) For DI/DO signals connected via the FSSB, the I/O signals are to be directly connected to the I/O unit connected to the FSSB. 4.3.1 FSSB I/O Connection Power supply connection External power supply CP11A 24 VDC stabilized 1 +24V powe
Page 64GFKE-0218A-EN 4.INSTALLATION DI/DO connection (1) Connector specifications Adherence to the MIL-C-83503 standard With improper insertion prevention key (2) Connector pin numbers Printed circuit board insertion direction Improper insertion Top view prevention key Pin mark The array closer to the impr
Page 654.INSTALLATION GFKE-0218-EN/02 +24E RV RV RV RV RV RV RV RV DOCOM +24V 0V +24V stabilized power supply Relay DV DV Relay DV Relay DV Relay DV Relay DV Relay DV Relay DV Relay - 56 -
Page 66GFKE-0218A-EN 4.INSTALLATION Signal list - Basic unit (1) DI signals #7 #6 #5 #4 #3 #2 #1 #0 DI+000 155A-B05 155A-A06 155A-B04 155A-A04 155A-B03 155A-A03 155A-B02 155A-A02 #7 #6 #5 #4 #3 #2 #1 #0 DI+001 155A-B10 155A-A10 155A-B09 155A-A09 155A-B08 155A-A08 155A-B07 155A-A07 #7 #6 #5 #4 #3 #2 #1 #0 D
Page 674.INSTALLATION GFKE-0218-EN/02 Machine interface - Basic unit FSSB I/O module CB155A CB156A 34-pin ribbon cable connector A B A B 01 +24E +24E 01 +24E +24E 02 DI+000 #0 DI+000 #1 02 DI+002 #0 DI+002 #1 03 DI+000 #2 DI+000 #3 03 DI+002 #2 DI+002 #3 04 DI+000 #4 DI+000 #5 04 DI+002 #4 DI+002 #5 05 DI+
Page 68GFKE-0218A-EN 4.INSTALLATION - Extension unit FSSB I/O module CB155B CB156B 34-pin ribbon cable connector A B A B 01 +24E +24E 01 +24E +24E 02 DI+004 #0 DI+004 #1 02 DI+006 #0 DI+006 #1 03 DI+004 #2 DI+004 #3 03 DI+006 #2 DI+006 #3 04 DI+004 #4 DI+004 #5 04 DI+006 #4 DI+006 #5 05 DI+004 #7 05 DI+006
Page 694.INSTALLATION GFKE-0218-EN/02 Connecting the basic unit with an extension unit Make a connection between the basic unit and extension unit by using a flat cable as shown below. The length of the flat cable is 100 mm. Units viewed from top Basic unit Extension unit Mounting plane CNF1 CNF2 Marking ▼
Page 70GFKE-0218A-EN 4.INSTALLATION 4.3.2 FSSB I/O Attachment External dimensions NOTE The figure above shows the outline drawing of the basic unit. An extension unit has the same outside dimensions. CNF1(basic) CP11A CNF2(extension) Fuse FUSE1 CP11B Left : CB156A Right : CB155A COP10A COP10B NOTE The figu
Page 714.INSTALLATION GFKE-0218-EN/02 Screw attachment 2-M4 Basic unit Extension unit 39 84 70 to 80 Mounting hole machining diagram When using both of the basic unit and an extension unit, provide a space of 70 mm to 80 mm between the mounting holes as shown above. - 62 -
Page 72GFKE-0218A-EN 4.INSTALLATION CAUTION When attaching/detaching this unit, a screwdriver is inserted at an angle. So, a sufficiently large working space must be provided on the both sides of this unit. As a guideline, if the front surface of an adjacent unit is flush with or set back from the front su
Page 734.INSTALLATION GFKE-0218-EN/02 Attachment to a DIN rail Attachment DIN rail Detachment DIN rail Attachment 1. Hook the unit over the top of the DIN rail. 2. Press the unit down until it snaps into place. Detachment 1. Pull down the lock section with a standard screwdriver. 2. Pull the lower part of
Page 74GFKE-0218A-EN 4.INSTALLATION Notes on installation 1. Use the unit in a completely sealed cabinet. 2. Be sure to install the unit on a vertical plane and provide a space of 100 mm or more above and under the unit. Under the unit, do not place a device that produces much heat. 3. When using the basic
Page 754.INSTALLATION GFKE-0218-EN/02 4.3.3 FSSB I/O Specification List Installation conditions Ambient temperature Operating 0°C to 55°C of the unit Storage, transportation -20°C to 60°C Temperature variation 1.1°C /minute maximum Normally Relative humidity 75% or less Humidity Short term (no more than on
Page 76GFKE-0218A-EN 5.I/O SIGNALS 5 I/O SIGNALS - 67 -
Page 775.I/O SIGNALS GFKE-0218-EN/02 5.1 OVERVIEW The dual check safety function provides two input paths and two output paths for safe-related signals (safety signals). For input signals (safety input signals), two paths are used: one path for input to the CNC via the PMC, and the other for input to the m
Page 78GFKE-0218A-EN 5.I/O SIGNALS 5.2 SIGNALS Emergency stop signal *ESP1 ( for loader control), *ESPG , *ESP2 [Classification] Input signal [Function] Stops machine movement immediately in an emergency. [Operation] When emergency stop signal (*ESP) is set to 0, the CNC
Page 795.I/O SIGNALS GFKE-0218-EN/02 The timing chart of signals related to MCC off Test mode is shown below. 1 RQT 0 1 OPT 0 1 0 MCF1 1 0 1 SMC1 0 1 SMC2 0 Test No. DGN379 1 2 3 4 0 CAUTION 1 While the MCC off test processing is in progress, avoid bringing the test mode signal (OPT) to 0. 2 If multi-path
Page 80GFKE-0218A-EN 5.I/O SIGNALS Test No. 1 2 3 4 5 MCF1 (PMC) MCF2 (FSSB) *SMC1 (PMC) *SMC2 (FSSB) Timer limit Timer Test start Test completion Example 1) Timing chart 1 of MCC off test (normal state) Test No. 1 2 3 4 MCF1 (PMC) MCF2 (FSSB) *SMC1 (PMC) *SMC2 (FSSB) Timer limit Alarm !! Timer Test start
Page 815.I/O SIGNALS GFKE-0218A-EN Guard open request signal ORQ , ORQ2, ORQ3, ORQ4 [Classification] Input signal [Function] This signal requests the CNC to unlock the guard with the dual check safety function. Guard open request signal (ORQ, ORQ2, ORQ3, ORQ4) is not inpu
Page 82GFKE-0218A-EN 5.I/O SIGNALS Guard lock state signal GDL1 , GDL2 [Classification] Input signal [Function] This signal posts the guard lock state to the CNC and monitor with the dual check safety function. 0: Guard unlocked state 1: Guard locked state [Operation] This signal is usua
Page 835.I/O SIGNALS GFKE-0218A-EN MCC-on enable signal MCF1 ,MCF2 [Classification] Output signal [Function] This signal posts notification that the MCC can be turned on with the dual check safety function. When either of the MCC on-enable signals (MCF1 and MCF2) is 0, the MCC is turned
Page 84GFKE-0218A-EN 5.I/O SIGNALS CAUTION 1 If the current date and time lags behind the date and time of the previously completed MCC off Test due to a clock change or the like, it is assumed that 24 hours have elapsed since the previous MCC off Test. 2 From February 28 to March 1, the elapse of 24 hours
Page 855.I/O SIGNALS GFKE-0218A-EN Safety brake output signal SA, *BRK [Classification] Output signal [Function] The CNC CPU and monitor CPU use these signals to control the mechanical brake. 0: Applies the brake. 1: Releases the brake. [Operation] The timing chart of these signals is sho
Page 86GFKE-0218A-EN 5.I/O SIGNALS WARNING When using the safety brake output signals, be sure to set the VRDY OFF alarm ignore signals for all axes (IGNVRY, QG0529 ) and the VRDY OFF alarm ignore signal (IGVRYx, QG1537+) for each axis to 0. CAUTION Be sure to inspect the brake periodically. Programmable s
Page 875.I/O SIGNALS GFKE-0218A-EN Safety speed / safety position selection signal A SVA1 to SVA8 (for each axis) SPA1 to SPA4 (for each spindle) Safety speed / safety position selection signal B SVB1 to SVB8 (for each axis) SPB1 to SPB4
Page 88GFKE-0218A-EN 5.I/O SIGNALS CAUTION 1 The safety speed and safety position selection signal are safety signals, so that these signals are input via the two paths, namely, via the PMC and FSSB. Each signal input via the two paths is monitored for a mismatch by the CNC and monitor in dual mode. 2 When
Page 895.I/O SIGNALS GFKE-0218A-EN If a mismatch between the state of the signals (IF2689+ to IF2713+) output via the PMC and the signals (DO+002 to DO+005) output via the FSSB lasts for a certain period of time, the CNC CPU and monitor CPU assume the occurrence of an error and immediately shut off power t
Page 90GFKE-0218A-EN 5.I/O SIGNALS 5.3 SIGNAL ADDRESSES 5.3.1 1-path Control Via the PMC #7 #6 #5 #4 #3 #2 #1 #0 I0065+ *ESP1 QG0521 + *ESPG QG1529+ *SMC1 GDL1 SGD1 ORQ OPT QG2657+ SGD41 SGD31 SGD21 QG2673+ SDI07 SDI06 SDI05 SDI04 SDI03 SDI02 SDI01 SDI00 QG2681+ SDI15 SDI14 SDI13 SDI12 SDI11 SDI10 SDI09 SD
Page 915.I/O SIGNALS GFKE-0218-EN/02 Via the FSSB #7 #6 #5 #4 #3 #2 #1 #0 DI+000 SGD42 SGD32 SGD22 *ESP2 DI+001 *SMC2 GDL2 SGD2 Basic DI+002 SDI07 SDI06 SDI05 SDI04 SDI03 SDI02 SDI01 SDI00 DI+003 SDI15 SDI14 SDI13 SDI12 SDI11 SDI10 SDI09 SDI08 DI+004 SVA8 SVA7 SVA6 SVA5 SVA4 SVA3 SVA2 SVA1 Extension DI+005
Page 92GFKE-0218A-EN 5.I/O SIGNALS 5.3.2 2-CPU 2-path Control (Series 16i/18i-TB, Series 16i-MB) A signal symbol suffixed with #1 represents a signal dedicated to tool post 1, and a signal symbol suffixed with #2 represents a signal dedicated to tool post 2. Via the PMC #7 #6 #5 #4 #3 #2 #1 #0 I0065+ *ESP1
Page 935.I/O SIGNALS GFKE-0218A-EN #7 #6 #5 #4 #3 #2 #1 #0 #1 IF0001+ SA #1 #1 #1 IF1529+ RQT MCF1 *LGD #1 #1 #1 #1 #1 #1 #1 #1 QG2649+ SDO07 SDO06 SDO05 SDO04 SDO03 SDO02 SDO01 SDO00 #1 #1 #1 #1 #1 #1 #1 #1 IF2689+ SPS08 SPS07 SPS06 SPS05 SPS04 SPS03 SPS02 SPS01 #1 #1 #1 #1 #1 #1 #1 #1 IF2697+ SPS16 SPS15
Page 94GFKE-0218A-EN 5.I/O SIGNALS Via the FSSB Signals input to the FSSB I/O module connected to tool post 1/signals output from the FSSB I/O module #7 #6 #5 #4 #3 #2 #1 #0 #1 #1 #1 #1 DI+000 SGD42 SGD32 SGD22 *ESP2 #1 #1 #1 DI+001 *SMC2 GDL2 SGD2 Basic #1 #1 #1 #1 #1 #1 #1 #1 DI+002 SDI07 SDI06 SDI05 SDI
Page 955.I/O SIGNALS GFKE-0218-EN/02 5.3.3 1-CPU 2-path Control (Series 16i/18i-TB) A signal symbol suffixed with #1 represents a signal dedicated to tool post 1, and a signal symbol suffixed with #2 represents a signal dedicated to tool post 2. Via the PMC #7 #6 #5 #4 #3 #2 #1 #0 I0065+ *ESP1 #7 #6 #5 #4
Page 96GFKE-0218A-EN 5.I/O SIGNALS #7 #6 #5 #4 #3 #2 #1 #0 #1 IF0001+ SA #1 #1 #1 IF1529+ RQT MCF1 *LGD #1 #1 #1 #1 #1 #1 #1 #1 QG2649+ SDO07 SDO06 SDO05 SDO04 SDO03 SDO02 SDO01 SDO00 #1 #1 #1 #1 #1 #1 #1 #1 IF2689+ SPS08 SPS07 SPS06 SPS05 SPS04 SPS03 SPS02 SPS01 #1 #1 #1 #1 #1 #1 #1 #1 IF2697+ SPS16 SPS15
Page 975.I/O SIGNALS GFKE-0218-EN/02 Via the FSSB #7 #6 #5 #4 #3 #2 #1 #0 DI+000 SGD42 SGD32 SGD22 *ESP2 DI+001 *SMC2 GDL2 SGD2 Basic #1 #1 #1 #1 #1 #1 #1 #1 DI+002 SDI07 SDI06 SDI05 SDI04 SDI03 SDI02 SDI01 SDI00 #1 #1 #1 #1 #1 #1 #1 #1 DI+003 SDI15 SDI14 SDI13 SDI12 SDI11 SDI10 SDI09 SDI08 #2 #2 #2 #2 #1
Page 98GFKE-0218A-EN 5.I/O SIGNALS 5.3.4 2-CPU 3-path Control (Series 16i-TB) A signal symbol suffixed with #1 represents a signal dedicated to tool post 1, a signal symbol suffixed with #2 represents a signal dedicated to tool post 2, and a signal symbol suffixed with #3 represents a signal dedicated to t
Page 995.I/O SIGNALS GFKE-0218A-EN #7 #6 #5 #4 #3 #2 #1 #0 #1 IF0001+ SA #1 #1 #1 IF1529+ RQT MCF1 *LGD #1 #1 #1 #1 #1 #1 #1 #1 QG2649+ SDO07 SDO06 SDO05 SDO04 SDO03 SDO02 SDO01 SDO00 #1 #1 #1 #1 #1 #1 #1 #1 IF2689+ SPS08 SPS07 SPS06 SPS05 SPS04 SPS03 SPS02 SPS01 #1 #1 #1 #1 #1 #1 #1 #1 IF2697+ SPS16 SPS15
Page 100GFKE-0218A-EN 5.I/O SIGNALS Via the FSSB Signals input to the FSSB I/O module connected to tool post 1/signals output from the FSSB I/O module #7 #6 #5 #4 #3 #2 #1 #0 #1 #1 #1 #1 DI+000 SGD42 SGD32 SGD22 *ESP2 #1 #1 #1 DI+001 *SMC2 GDL2 SGD2 Basic #1 #1 #1 #1 #1 #1 #1 #1 DI+002 SDI07 SDI06 SDI05 SDI
Page 1015.I/O SIGNALS GFKE-0218-EN/02 Signals input to the FSSB I/O module connected to tool post 2/signals output from the FSSB I/O module #7 #6 #5 #4 #3 #2 #1 #0 (*) (*) (*) (*) DI+000 SGD42 SGD32 SGD22 *ESP2 (*) (*) (*) DI+001 *SMC2 GDL2 SGD2 Basic #2 #2 #2 #2 #2 #2 #2 #2 DI+002 SDI07 SDI06 SDI05 SDI04 S
Page 102GFKE-0218A-EN 5.I/O SIGNALS 5.3.5 Loader Control (Series 16i/18i/21i-TB, Series 16i/18i-MB) All of the signals described in this subsection are dedicated to the loader. Via the PMC #7 #6 #5 #4 #3 #2 #1 #0 I0001+ *ESP1 #7 #6 #5 #4 #3 #2 #1 #0 QG0065+ *ESPG QG1529+ *SMC1 GDL1 SGD1 ORQ OPT #7 #6 #5 #4
Page 1035.I/O SIGNALS GFKE-0218-EN/02 5.3.6 Caution (Common) CAUTION 1 The shaded signals are dual signals. (An italic signal is monitored in dual mode only when the safety function that uses the signal is enabled.) 2 Emergency stop signals (*ESP) via the PMC ( for loader control) and via t
Page 104GFKE-0218A-EN 5.I/O SIGNALS 5.4 SAFETY SIGNAL MODES Depending on the safety input signal state, the CNC, monitor, and spindle software internally have one of the six modes (safety signal modes) indicated in the table below. Safety signal mode Safety signal state Machine state Emergency stop mode *ES
Page 1055.I/O SIGNALS GFKE-0218-EN/02 CAUTION When multiple doors (to be set using parameter No. 13800) are used and a different mode is set for each door, the safety signal mode for the entire safety area is set in the priority order of mode D > mode C > mode B > mode A. For example, when safety signal mod
Page 106GFKE-0218A-EN 5.I/O SIGNALS 5.5 NOTES ON MULTI-PATH CONTROL This section describes cautions about safe-related I/O signals that should be taken in multi-path control. 5.5.1 2-CPU 2-Path Control (without Axis Change between Paths) If there is no axis change between paths under 2-CPU 2-path control, a
Page 1075.I/O SIGNALS GFKE-0218-EN/02 5.5.2 2-CPU 2-Path Control (with Axis Change between Paths) If there is an axis change between paths under 2-CPU 2-path control, a single group of safety areas can be provided. Two FSSB I/O units, that is one unit for each path, are required. (The two FSSB I/O units are
Page 108GFKE-0218A-EN 5.I/O SIGNALS 5.5.3 1-CPU 2-Path Control A single group of safety areas can be provided under 1-CPU 2-path control. A single FSSB I/O unit is required. Two groups of safety input signals are cross-checked. The first group consists of a safety signal input to tool post 1 (DI1C: I0069 ,
Page 1095.I/O SIGNALS GFKE-0218-EN/02 5.5.4 2-CPU 3-Path Control Under 2-CPU 3-path control, two groups of safety areas can be provided: one group for tool post 1 and the other group for tool posts 2 and 3. Two FSSB I/O units are required: one unit for tool post 1 and the other unit for tool posts 2 and 3.
Page 110GFKE-0218A-EN 5.I/O SIGNALS 5.5.5 Loader Control A single group of safety areas can be provided for loader control, independently of that for the machine controlled with the main CPU board and sub-CPU board. Besides the FSSB unit for the machine, a single FSSB unit is required for the loader. (Even
Page 1116.PARAMETERS GFKE-0218-EN/02 6 PARAMETERS - 102 -
Page 112GFKE-0218A-EN 6.PARAMETERS 6.1 OVERVIEW The parameters related to the dual check safety function (safety parameters) are protected by a code (No. 3225) for the safety parameters. The value of a safety parameter cannot be modified unless the same value as the code for the safety parameters is set as
Page 1136.PARAMETERS GFKE-0218-EN/02 6.2 PARAMETERS 1023 Servo axis number for each axis [Data type] Byte axis [Valid data range] 1, 2, 3, ..., number of controlled axes Set which servo axis corresponds to each controlled axis. Usually, set the same value for a controlled axis number and servo axis number.
Page 114GFKE-0218A-EN 6.PARAMETERS 1838 Positional deviation limit during movement for each axis in safety signal mode C [Data type] 2-word axis [Unit of data] Detection unit [Valid data range] 0 to 99999999 Set a positional deviation limit during movement for each axis in safety signal mode C (state in whi
Page 1156.PARAMETERS GFKE-0218-EN/02 CAUTION Usually set the DCE = 1 in the dual check safety function. The system cannot start-up because MCC-on enable signal (MCF) = 0 when the DCE = 0. WARNING Always set bits 5 and 7 of parameter No.1902 to 0. If one of these bits is set "1", the safety functions may be
Page 116GFKE-0218A-EN 6.PARAMETERS 1942 Safety speed for each axis 13821 Safety speed 1 for each axis 13822 Safety speed 2 for each axis 13823 Safety speed 3 for each axis 13824 Safety speed 4 for each axis [Data type] 2-word axis [Unit of data] [Valid data range] Parameter Valid data range Increment TR2x U
Page 1176.PARAMETERS GFKE-0218-EN/02 CAUTION 1 When bit 1 (TR2x) of parameter No. 13802 is set to 0, a speed command check is made in terms of the detection unit. So, a calculation error can result. 2 Safety speed parameter No. 1942, and No. 13821 through No. 13824 are safety parameters, so that these param
Page 118GFKE-0218A-EN 6.PARAMETERS [Valid data range] -99999999 to 99999999 Set a safe machine position for each axis. The CNC and monitor always check the machine position on each linear axis in the dual check safety function. In safety signal mode B (state in which a guard open request is input, and the g
Page 1196.PARAMETERS GFKE-0218-EN/02 CAUTION 1 The checks are made on the basis of the machine position to the detection unit. Accordingly, a calculation error may occur. 2 Safe machine position parameter No. 1943, No. 1944, and No. 13831 through No. 13836 are safety parameters, so that these parameters are
Page 120GFKE-0218A-EN 6.PARAMETERS 1946 MCC off Test timer [Data type] Word [Unit of data] ms [Valid data range] 0 to 32767 When MCC off Test mode is set with the dual check safety function, the CNC conducts a safety output signal MCC off Test. If a MCC off Test is not completed within the time set in this
Page 1216.PARAMETERS GFKE-0218-EN/02 1950 Brake signal timer [Data type] Word [Unit of data] ms [Valid data range] 0 to 32767 Set a time period from when the monitor in the dual check safety function detects that the MCC contact state signal (*SMC2) is 0 (MCC on state) until the brake release signal (*BRK)
Page 122GFKE-0218A-EN 6.PARAMETERS 2078 Monitor conversion factor (numerator) of each axis 2079 Monitor conversion factor (denominator) of each axis [Data type] Word axis Set the following values. Number of position feedback pulses per motor revolution Conversion Numerator (Value multiplied by the feed gear
Page 1236.PARAMETERS GFKE-0218-EN/02 3225 Code for safety parameters [Data type] 2-word [Valid data range] 0 to 99999999 Set a code (password) for protecting against modifications to parameters related to the dual check safety function (safety parameters). When a code for safety parameters is set, the param
Page 124GFKE-0218A-EN 6.PARAMETERS 4372 Safe speed of each spindle 4438 Safe speed 2 of each spindle 4440 Safe speed 3 of each spindle 4442 Safe speed 4 of each spindle [Data type] Word [Unit of data] min-1 [Valid data range] 0 to 32767 Set a safety speed for each spindle in terms of motor speed. With the d
Page 1256.PARAMETERS GFKE-0218-EN/02 #7 #6 #5 #4 #3 #2 #1 #0 13800 NM2 NM1 SAP CIO CAUTION 1 When these parameters are set, the power must be turned off before operation is continued. 2 These parameters are safety parameters, so that these parameters are protected using the key and code of Dual Check Safety
Page 126GFKE-0218A-EN 6.PARAMETERS #7 #6 #5 #4 #3 #2 #1 #0 13802 TR2x NP2x CAUTION 1 When these parameters are set, the power must be turned off before operation is continued. 2 These parameters are safety parameters, so that these parameters are protected using the key and code of Dual Check Safety. To mod
Page 1276.PARAMETERS GFKE-0218-EN/02 CAUTION 1 This parameter is a safety parameter, so that the parameter is protected using the key and code of Dual Check Safety. To modify the parameter, set a code for safety parameters as the key for safety parameters (parameter No. 3226). 2 When 0 is set in this parame
Page 128GFKE-0218A-EN 6.PARAMETERS CAUTION 1 When 0 is set, the safety position switch function of the corresponding number is not used. (The safe position switch signal of the corresponding number is not output.) 2 If an axis for which Dual Check Safety is disabled by setting bit 6 of parameter No. 1904 to
Page 1296.PARAMETERS GFKE-0218-EN/02 13920 Maximum operation range of the 1st safe position switch 13921 Maximum operation range of the 2nd safe position switch … 13951 Maximum operation range of the 32nd safe position switch [Data type] 2-word [Unit of data] Increment system IS-A IS-B IS-C Unit Millimeter
Page 130GFKE-0218A-EN 6.PARAMETERS 13960 Minimum operation range of the 1st safe position switch 13961 Minimum operation range of the 2nd safe position switch … 13991 Minimum operation range of the 32nd safe position switch [Data type] 2-word [Unit of data] Increment system IS-A IS-B IS-C Unit Millimeter ma
Page 1316.PARAMETERS GFKE-0218-EN/02 6.3 PARAMETERS RELATED TO THE USE OF FSSB I/O UNIT #7 #6 #5 #4 #3 #2 #1 #0 1902 FMD [Data type] Bit FMD The FSSB setting mode is: 0: Automatic setting mode. 1: Manual setting 2 mode. CAUTION When using the dual check safety function, set the FMD bit to 1, to select manua
Page 132GFKE-0218A-EN 6.PARAMETERS #7 #6 #5 #4 #3 #2 #1 #0 1905 IO2 IO1 [Data type] Bit axis IO1 A first FSSB I/O unit is: 0: Not used. 1: Used. IO2 A second FSSB I/O unit is: 0: Not used. 1: Used. CAUTION 1 The FSSB I/O unit and separate detector interface unit (pulse module) are handled as units of the sa
Page 1336.PARAMETERS GFKE-0218A-EN 1910 Address conversion table value for slave 1 of FSSB channel 1 (ATR) : 1919 Address conversion table value for slave 10 of FSSB channel 1 (ATR) 1970 Address conversion table value for slave 1 of FSSB channel 2 (ATR) : 1979 Address conversion table value for slave 10 of
Page 134GFKE-0218A-EN 6.PARAMETERS 1936 Unit number of the 1st FSSB I/O unit 1937 Unit number of the 2nd FSSB I/O unit CAUTION 1 When these parameters have been set, the power must be turned off before operation is continued. 2 These parameters are shared for the connector numbers of the first and second se
Page 1356.PARAMETERS GFKE-0218A-EN 6.4 FUNCTIONS THAT REQUIRE SPECIAL PARAMETER SETTINGS 6.4.1 Tandem Control To use tandem control, set the following parameters. • Master axis No special parameter settings are required. • Slave axis No.1904#6(DCN)=1 No.2078=0 No.2079=0 6.4.2 Simple Electronic Gear Box and
Page 136GFKE-0218A-EN 6.PARAMETERS • 2-CPU 3-path control (No axis change can be made between tool post 1 and tool post 2 or 3.) No.1023 Set parameter No.1023 to 9 for the axis of tool post 2. When an FSSB I/O extension unit is used, set parameter No. 1023 to 10 for the axis of tool post 2. No.1945, No.1947
Page 1376.PARAMETERS GFKE-0218A-EN 6.4.4 Closed Loop Control When using a separate position detector, make the following parameter settings: (1) With the dual check safety function, the monitor reads feedback information from the built-in pulse coder. So, the following parameters need to be set for a machin
Page 138GFKE-0218A-EN 6.PARAMETERS 6.4.5 PMC Axis Control (Speed Command) If a speed command (axis control command 10h) is specified in PMC axis control, the machine position is lost. So, the following parameters need to be set so that the machine position is not monitored in dual mode: • Bit 0 (NP2x) of pa
Page 1397.START-UP GFKE-0218A-EN 7 START-UP - 130 -
Page 140GFKE-0218A-EN 7.START-UP 7.1 START-UP OPERATION The machine tool builder has to do tests for insulation and protective bonding. Testing must be performed according to Chapter 19.2 and 19.3 of the standard IEC 60204-1 by an appropriately authorized person and recorded. Continuity of the protective bo
Page 1417.START-UP GFKE-0218A-EN Safe speed monitoring test This test checks that when the actual speed exceeds a speed limit, safety stop state is set by a stop response. When multiple safety speeds are set, all safety speeds need to be checked. Safe machine position monitoring test A positional limit test
Page 142GFKE-0218A-EN 7.START-UP 7.2 START-UP OF THE DUAL CHECK SAFETY FUNCTION 7.2.1 Initial Start-up Main flow Disable dual check FSSB I/O setting Safety parameter safety function input Machine start-up Step 1 Initial state First, check that the machine starts up normally when the dual check safety functi
Page 1437.START-UP GFKE-0218A-EN Step 3 Safety parameter input Enable the dual check safety function, and enter the safety parameters. Enable the dual check safety Bit 6 of PRM No. 1902 Preparation 1 function. =1 Enables output (MCF), from I/O, Preparation 2 Enable I/O output. that indicates MCC is turned o
Page 144GFKE-0218A-EN 7.START-UP Step 7 Parameter preservation Save all parameters including the safety parameters. The parameters are used to start up the series. Step 8 Set a password. A password is used to disable unauthorized persons from modifying safety parameters. Before safety parameters of the equi
Page 1458.MAINTENANCE GFKE-0218A-EN 8 MAINTENANCE - 136 -
Page 146GFKE-0218A-EN 8.MAINTENANCE 8.1 SAFETY PRECAUTIONS This section describes the safety precautions related to the use of CNC units. It is essential that these precautions be observed by users to ensure the safe operation of machines equipped with a CNC unit (all descriptions in this section assume thi
Page 1478.MAINTENANCE GFKE-0218A-EN MAINTENANCE PARTS TO BE MAINTAINED PERIODICALLY • Memory backup battery replacement WARNING When replacing the memory backup batteries, keep the power to the machine (CNC) turned on, and apply an emergency stop to the machine. Because this work is performed with the power
Page 148GFKE-0218A-EN 8.MAINTENANCE 2. When checking the machine operation with the power magnetics cabinet door opened. (1) The power magnetics cabinet has a high-voltage section (carrying a mark). Never touch the high-voltage section. The high-voltage section presents a severe risk of electric shock. Befo
Page 1498.MAINTENANCE GFKE-0218A-EN WARNINGS RELATED TO REPLACEMENT WARNING 1. Always turn off the power to the CNC and the main power to the power magnetics cabinet. If only the power to the CNC is turned off, power may continue to be supplied to the serve section. In such a case, replacing a unit may dama
Page 150GFKE-0218A-EN 8.MAINTENANCE 8.2 ALARMS AND MESSAGES 8.2.1 Overview Alarms related to the dual check safety function cannot be cancelled by a reset. To cancel the alarms, turn off the power, remove the causes of the alarms, then turn on the power again. For information about emergency stop mode, MCC
Page 1518.MAINTENANCE GFKE-0218A-EN 8.2.2 Servo Alarms No. Meaning Description Servo axis operation when alarm is issued 364 n AXIS: SOFT PHASE The servo control software detected an abnormal data Immediate stop ALARM(INT) skip in a velocity feedback signal on axis n (axis 1 to axis (same as 8). emergency s
Page 152GFKE-0218A-EN 8.MAINTENANCE No. Meaning Description Servo axis operation when alarm is issued 474 n AXIS:EXCESS ERROR The monitor detected that the positional deviation during Immediate stop (STOP:MNT) a stop on axis n (axis 1 to axis 8) exceeded the setting (parameter No. 1829) in safety signal mod
Page 1538.MAINTENANCE GFKE-0218A-EN No. Meaning Description Servo axis operation when alarm is issued 480 n AXIS:ILLEGAL SAFETY The monitor detected that safety signal mode D (state in Immediate stop MODE (MNT) which the guard is open although no guard open request is input) was set, or the guard is open wh
Page 154GFKE-0218A-EN 8.MAINTENANCE No. Meaning Description Servo axis operation when alarm is issued 487 ILLEGAL SAFETY MODE The CNC detected that safety signal mode D (state in Immediate stop (CNC) which the guard is open although no guard open request is input) was set, or the guard is open when guard un
Page 1558.MAINTENANCE GFKE-0218A-EN No. Meaning Description Servo axis operation when alarm is issued 494 n AXIS:SAFTY SPEED The CNC detected that the specified speed on axis n Immediate stop EXCEEDED (CNC) (axis 1 to axis 8) exceeded the setting (parameter No. 1942 / No. 13821 to No. 13824) in safety signa
Page 156GFKE-0218A-EN 8.MAINTENANCE 8.2.3 Serial Spindle Alarms No. Meaning Description Servo axis operation when alarm is issued 749 S-SPINDLE LSI It is serial communication error while system is executing after power Immediate stop ERROR supply on. Check optical cable connection between main CPU board and
Page 1578.MAINTENANCE GFKE-0218A-EN No. Meaning Description Servo axis operation when alarm is issued 786 SPINDLE-4 ILLEGAL Same as alarm No. 756. (For the second spindle) Immediate stop AXIS DATA 787 SPINDLE-4 SAFETY Same as alarm No. 757. (For the second spindle) Immediate stop SPEED OVER 7n16 SPN n :S-SP
Page 158GFKE-0218A-EN 8.MAINTENANCE 8.2.4 Alarms Displayed on the Spindle Unit No. Meaning Description 16 RAM Alarm An error occurred in a spindle RAM test. Replace spindle amplifier module. 69 Safety speed over The spindle software detected that the speed of the spindle motor exceeded the safety speed (par
Page 1598.MAINTENANCE GFKE-0218A-EN 8.2.5 System Alarms No. Meaning Description 900 ROM PARITY Parity error of the CNC, macro, or servo ROM. When the dual check safety function is used: 1 Parity error of the CNC, macro, or servo ROM 2 CRC error of the CNC, servo, or monitor ROM Reinstall the indicated ROM i
Page 160GFKE-0218A-EN 9.DIAGNOSIS 9 DIAGNOSIS - 151 -
Page 1619.DIAGNOSIS GFKE-0218A-EN 9.1 OVERVIEW The information of safety signal mode and safety input signal of the dual check safety function is displayed. For information about emergency stop mode, MCC off Test mode, and safety signal modes A/B/C/D, see Chapter 5. - 152 -
Page 162GFKE-0218A-EN 9.DIAGNOSIS 9.2 DIAGNOSIS #7 #6 #5 #4 #3 #2 #1 #0 Diagnosis No. 376 FMC FGL FGD The current states of safety signals input via the FSSB are displayed. FGD The state of the guard state signal (SGD2) is displayed. FGL The state of the guard lock state signal (GDL2) is displayed. FMC The
Page 1639.DIAGNOSIS GFKE-0218A-EN 9.3 DUAL CHECK SAFETY DIAGNOSIS SCREEN 9.3.1 Overview The screen dedicated to dual check safety maintenance is displayed in the screen. This screen displays the current machine state (state of safety-related signals input/output via the two paths (PMC/FSSB)) and the m
Page 164GFKE-0218A-EN 9.DIAGNOSIS 9.3.3 Screen Display (1) Current machine state display <1> General [Page 1] • The safety signal mode (SAFE MODE) is displayed. The table below indicates safety signal modes and their priorities. Priority Mode High EMERGENCY STOP MCC OFF TEST A) NORMAL MODE B) GUARD OPEN REQ
Page 1659.DIAGNOSIS GFKE-0218A-EN <2> DI/DO-related data [Page 2] (Safety DI) • The states of input signals transferred via the PMC and FSSB are displayed. • For a mismatching signal, "#" is prefixed to the address. (However, "#" is not displayed for bit 0 of QG2657+/DI+000 and bits 2 and 3 of QG1529+/DI+00
Page 166GFKE-0218A-EN 9.DIAGNOSIS [Pages 4 and 5] (Safety area) The states of *ESP, *BRK, and DI/DO are displayed. Screen layout - 157 -
Page 1679.DIAGNOSIS GFKE-0218A-EN <3> Machine information (displayed only when bit 0 (DCS) of parameter No. 13801 = 1) [Page 6] (Machine position) • The machine position (detection unit) on the CNC/monitor side is displayed. • A blank is displayed for all axes with dual check safety disabled. • For an axis
Page 168GFKE-0218A-EN 9.DIAGNOSIS [Page 8] (Feed axis speed) • The speed (detection unit/interpolation cycle(NOTE)) on the CNC/monitor side is displayed. • A blank is displayed for all axes with dual check safety disabled. • For an axis exceeding the safety speed, the data is suffixed with "#". NOTE When bi
Page 1699.DIAGNOSIS GFKE-0218A-EN <4> Monitoring state (displayed only when bit 0 (DCS) of parameter No. 13801 = 1) [Page 10] (Feed axis monitoring) • The monitoring state (cross-check data) on the CNC/monitor side is displayed. • When five or more axes are involved, the screen display is divided into two s
Page 170GFKE-0218A-EN 9.DIAGNOSIS (2) Data when an alarm is issued <1> General [Page 1] • For the first detected alarm related to dual check safety, the date and time of alarm issue, alarm number, and message are displayed. • If no alarm is issued yet, "NO ALARM" is displayed, and "0" is displayed for the o
Page 1719.DIAGNOSIS GFKE-0218A-EN <2> DI/DO-related data [Page 2] • The states of input signals transferred via the PMC and FSSB are displayed when a dual check safety alarm is issued. If no alarm is issued yet, "0" is displayed for all data items. • For a mismatching signal, "#" is prefixed to the address.
Page 172GFKE-0218A-EN 9.DIAGNOSIS [Page 6] (Feed axis speed) • The speeds (detection unit/interpolation period) on the CNC and monitor sides are displayed when a dual check safety alarm is issued. If no alarm is issued yet, "0" is displayed for all data items. • A blank is displayed for all axes with dual c
Page 1739.DIAGNOSIS GFKE-0218A-EN [Page 9] (Spindle monitoring) • The monitoring states (cross-check data) on the CNC and spindle sides are displayed when a dual check safety alarm is issued. If no alarm is issued yet, "0" is displayed for all data items. • If a mismatch is detected between the monitoring s
Page 174GFKE-0218A-EN 10.SAMPLE SYSTEM CONFIGURATION 10 SAMPLE SYSTEM CONFIGURATION - 165 -
Page 17510.SAMPLE SYSTEM CONFIGURATION GFKE-0218A-EN 10.1 SAMPLE CONFIGURATION 10.1.1 For 1-path (When One PSM Is Used) - 166 -
Page 176GFKE-0218A-EN 10.SAMPLE SYSTEM CONFIGURATION 10.1.2 For 1-path (When One PSM Is Used) - 167 -
Page 17710.SAMPLE SYSTEM CONFIGURATION GFKE-0218A-EN 10.1.3 For 2-path (When the main side and sub side use a common MCC) QG1532 QG11532 QG1531 QG11531 I0069) QG0069 QG10069 QG1534 QG11534 IF1531 IF11531 QG1533 QG11533 QG1535 QG11535 : IF1529 IF11529 IF1530 IF11530 - 168 -
Page 178GFKE-0218A-EN 10.SAMPLE SYSTEM CONFIGURATION 10.1.4 For 2-path (When the main side and sub side use independent MCCs and protection doors) QG1532 QG11532 QG1531 QG11531 (I0069) QG0069 QG10069 QG1534 QG11534 IF1531 IF11531 QG1533 QG11533 QG1535 QG11535 IF1529 IF11529 IF1530 IF11530 - 169 -
Page 17910.SAMPLE SYSTEM CONFIGURATION GFKE-0218A-EN 10.2 SAMPLE CONNECTIONS 10.2.1 Emergency Stop Signal (*ESP1, *ESP2) +24V I/O-Link I/O UNIT *ESP1 (I0069 ) FSSB I/O UNIT *ESP2 (DI+000#0) 0V PSM CX4 ESP NOTES Use a two-contact emergency stop button with a forced dissociation mechanism. Connect the emergen
Page 180GFKE-0218A-EN 10.SAMPLE SYSTEM CONFIGURATION 10.2.2 Guard Open Request Signal (ORQ) NOTES Create a Ladder program of conditions for making a guard open request and then input the program to the PMC side [QG1532 ]. When the guard open request signal (ORQ) is input and when CNC safety has been confirm
Page 18110.SAMPLE SYSTEM CONFIGURATION GFKE-0218A-EN 10.2.4 Guard Unlock Signal (*LGD), Guard Lock State Signal (GDL), Guard State Signal (SGD) When one protective door is used The following figure shows the example which combined the safety guard switch with safety relay. +24V Guard closed SW1 SW2 Guard-mo
Page 182GFKE-0218A-EN 10.SAMPLE SYSTEM CONFIGURATION When one protective door is used The following figure shows the example which combined the safety guard switch without safety relay. +24V Guard closed SW1 SW2 Guard-monitoring limit switch SW3 SW4 0V [Sample control components] I/O Link I/O UNIT PMC SW1/S
Page 18310.SAMPLE SYSTEM CONFIGURATION GFKE-0218A-EN When one protection area has two protective doors When one protection area has two protective doors, for example, a limit switch for guard monitoring with a lock can be installed on each protective door together with a safety relay as shown below. +24V Gu
Page 184GFKE-0218A-EN 10.SAMPLE SYSTEM CONFIGURATION Operating principle - When one protective door is used The table below indicates the states of each component. States of each component Guard Guard lock SW1 SW2 SW3 RY1 RY2 RY3 SGD １ CLOSE LOCKED CLOSE CLOSE CLOSE ON ON OFF 1 ２ CLOSE UNLOCKED CLOSE CLOSE
Page 18510.SAMPLE SYSTEM CONFIGURATION GFKE-0218A-EN The guard state is monitored, and the guard state signal (SGD) affects the dual check safety function. The guard lock state signal (GDL) only indicates whether an input mismatch is found. The state of the GDL signal does not affect the dual check safety f
Page 186GFKE-0218A-EN 10.SAMPLE SYSTEM CONFIGURATION 10.2.5 MCC On Enable Signal (MCF), MCC Contact State Signal (*SMC) +24V I/O Link I/O UNIT PMC *SMC1 X00n#n (QG1535 ) MCF1(IF1530)h Y00n#n 0V FSSB I/O UNIT *SMC2 (DI+001#6) MCF (DO+000#1) 0V PSM 200A 200B CX3 MCC U V W Electromagnetic contactor (MAIN MCC)
Page 18711.APPLYCATION OF OTHER FUNCTIONS GFKE-0218A-EN 11 APPLYCATION OF OTHER FUNCTIONS - 178 -
Page 188GFKE-0218A-EN 11.APPLYCATION OF OTHER FUNCTIONS 11.1 OVERVIEW The dual check safety function becomes easier to use when combined with various other functions. This section describes the functions. Part of the section assumes the use of the dual check safety function. Therefore, if the function is no
Page 18911.APPLYCATION OF OTHER FUNCTIONS GFKE-0218A-EN 11.2 EXTERNAL DECELERATION 11.2.1 Overview The dual check safety function uses the CNC CPU and monitor DSP to separately monitor the specified speed of the feed axis (safe speed monitoring function). When one or more axes have a speed greater than or e
Page 190GFKE-0218A-EN 11.APPLYCATION OF OTHER FUNCTIONS 11.2.2 Specifications External deceleration speed The external deceleration speed is set for each of rapid traverse and cutting feed. Three sets of external deceleration speeds and external deceleration signals are provided as external deceleration set
Page 19111.APPLYCATION OF OTHER FUNCTIONS GFKE-0218A-EN In manual handle feed, the relationships between external deceleration settings, external signals, and parameters are shown in the table below. Signal Parameter Settings External Manual handle feed External deceleration maximum speed Valid/Invalid dece
Page 192GFKE-0218A-EN 11.APPLYCATION OF OTHER FUNCTIONS 11.2.3 Signals 11.2.3.1 Details on signals Manual handle feed maximum feedrate change signal HNDLF [Classification] Input signal [Function] This signal switches to or from the maximum manual handle feedrate. [Operation] When this signal is 1, t
Page 19311.APPLYCATION OF OTHER FUNCTIONS GFKE-0218A-EN 11.2.3.2 Signal address #7 #6 #5 #4 #3 #2 #1 #0 QG0185+ HNDLF #7 #6 #5 #4 #3 #2 #1 #0 QG0809+ *+ED28 *+ED27 *+ED26 *+ED25 *+ED24 *+ED23 *+ED22 *+ED21 QG0825+ *-ED28 *-ED27 *-ED26 *-ED25 *-ED24 *-ED23 *-ED22 *-ED21 #7 #6 #5 #4 #3 #2 #1 #0 QG0857+ *+ED38
Page 194GFKE-0218A-EN 11.APPLYCATION OF OTHER FUNCTIONS 1426 External deceleration rate setting 1 in cutting feed 1440 External deceleration rate setting 2 in cutting feed 1443 External deceleration rate setting 3 in cutting feed [Data type] Word [Unit of data] [Valid data range] Increment Valid data range
Page 19511.APPLYCATION OF OTHER FUNCTIONS GFKE-0218A-EN 11.3 SPINDLE OUTPUT CONTROL BY THE PMC 11.3.1 Overview The dual check safety function uses the CNC CPU and spindle DSP to separately monitor the spindle speed (safe speed monitoring function). When one or more spindles have a speed greater than or equa
Page 196GFKE-0218A-EN 11.APPLYCATION OF OTHER FUNCTIONS 11.3.2 Specifications Switching control Spindle output control function by the PMC can be used to specify the following: • Spindle motor speed (number of rotations) • Output polarity for each spindle motor (direction of rotation) Usually, the CNC is us
Page 19711.APPLYCATION OF OTHER FUNCTIONS GFKE-0218A-EN 11.3.3 Signals 11.3.3.1 Details on signals Signals used to select the spindle motor speed command SIND (for 1st spindle) SIND2 (for 2nd spindle) [Classification] Input signal [Function] This signal specifies that either the CNC or PM
Page 198GFKE-0218A-EN 11.APPLYCATION OF OTHER FUNCTIONS 11.3.3.2 Signal address #7 #6 #5 #4 #3 #2 #1 #0 QG0257+ R08I R07I R06I R05I R04I R03I R02I R01I QG0265+ SIND SSIN SGN R12I R11I R10I R09I #7 #6 #5 #4 #3 #2 #1 #0 QG0273+ R08I2 R07I2 R06I2 R05I2 R04I2 R03I2 R02I2 R01I2 QG0281+ SIND2 SSIN2 SGN2 R12I2 R11
Page 19911.APPLYCATION OF OTHER FUNCTIONS GFKE-0218A-EN 11.4 SPINDLE POSITIONING (T SERIES) 11.4.1 Overview The dual check safety function uses the CNC CPU and spindle DSP to separately monitor the actual speed of the spindle (safe speed monitoring function). When the stop status of the spindle is monitored
Page 200GFKE-0218A-EN 11.APPLYCATION OF OTHER FUNCTIONS 11.4.2 Specifications Spindle positioning Spindle positioning is performed as follows. • Cancel the spindle rotation mode, which is used for turning with the spindle rotating, and enter the spindle positioning mode. • Position the spindle in the spindl
Page 20111.APPLYCATION OF OTHER FUNCTIONS GFKE-0218A-EN Semi-fixed angle positioning Semi-fixed angle positioning is specified by a two-digit value that follows address M. The six values from Mx to M(x+5) can be specified. (For extended specifications, 256 values from MX to M(X+255) can be specified.) The v
Page 202GFKE-0218A-EN 11.APPLYCATION OF OTHER FUNCTIONS 11.4.3 Signals 11.4.3.1 Details on signals Spindle stop complete signal SPSTP [Classification] Input signal [Function] The CNC checks that this signal is 1 and then performs orientation before spindle positioning or spindle positioning. Spindle
Page 20311.APPLYCATION OF OTHER FUNCTIONS GFKE-0218A-EN 11.4.3.2 Signal address #7 #6 #5 #4 #3 #2 #1 #0 QG0225+ SPSTP *SCPF *SUCPF #7 #6 #5 #4 #3 #2 #1 #0 IF0305+ SUCLP SCLP IF0753+ ZP8 ZP7 ZP6 ZP5 ZP4 ZP3 ZP2 ZP1 11.4.4 Parameters 1020 Program axis name for each axis [Data type] Byte axis Set a value of 67
Page 204GFKE-0218A-EN 11.APPLYCATION OF OTHER FUNCTIONS #7 #6 #5 #4 #3 #2 #1 #0 4000 RETSV [Data type] Bit RETSV Reference position return direction of spindle. 0: CCW (Counter clockwise) 1: CW (Clockwise) 4044 Proportional gain of the velocity loop in servo mode (HIGH gear) 4045 Proportional gain of the ve
Page 20511.APPLYCATION OF OTHER FUNCTIONS GFKE-0218A-EN 4073 Grid shift amount on servo mode [Data type] Word [Unit of data] 1 pulse (=360deg/4096) [Valid data range] 0 to 4095 The reference position is shifted counterclockwise by the set number of pulses. #7 #6 #5 #4 #3 #2 #1 #0 4950 IMB ESI TRV ISZ IDM IO
Page 206GFKE-0218A-EN 11.APPLYCATION OF OTHER FUNCTIONS 2) Specify an operation with the M code (parameter No. 4962) for specifying the spindle positioning angle. 3) Specify an operation with the M code (parameter No. 4961) for releasing spindle positioning. For the B specification, when the M code (paramet
Page 20711.APPLYCATION OF OTHER FUNCTIONS GFKE-0218A-EN CAUTION Set this parameter even when the semi-fixed angle spindle positioning command is not executed. Otherwise, the M codes from M00 to M05 do not function normally. 4963 Basic rotation angle of spindle positioning [Data type] Word [Unit of data] deg
Page 208GFKE-0218A-EN 11.APPLYCATION OF OTHER FUNCTIONS 11.5 Cs CONTOUR CONTROL 11.5.1 Overview The dual check safety function uses the CNC CPU and spindle DSP to separately monitor the actual speed of the spindle (safe speed monitoring function). When the stop status of the spindle is monitored by the safe
Page 20911.APPLYCATION OF OTHER FUNCTIONS GFKE-0218A-EN 11.5.2 Specifications Cs contour control mode The Cs contour control change signal is used to switch between spindle rotation control (method of controlling the rotation of the spindle with the velocity command) and spindle contour control (method of c
Page 210GFKE-0218A-EN 11.APPLYCATION OF OTHER FUNCTIONS 11.5.3 Signals 11.5.3.1 Details on signals Cs contour control change signal CON [Classification] Input signal [Function] This signal specifies for the first spindle to switch between the spindle rotation control mode and the Cs contour contro
Page 21111.APPLYCATION OF OTHER FUNCTIONS GFKE-0218A-EN Cs contour control change signals in each axis CONS1 to CONS4 [Classification] Input signal [Function] This signal specifies the switching of the first to fourth spindles between the spindle rotation control mode and the Cs contour
Page 212GFKE-0218A-EN 11.APPLYCATION OF OTHER FUNCTIONS 11.5.4 Parameters #7 #6 #5 #4 #3 #2 #1 #0 1006 ROTx [Data type] Bit axis ROTx Controlled axis is: 0: Linear axis. 1: Rotation axis. Set 1 for the Cs contour control axis. 1022 Setting of each axis in the basic coordinate system [Data type] Byte axis Sp
Page 21311.APPLYCATION OF OTHER FUNCTIONS GFKE-0218A-EN 4056 Gear ratio (HIGH gear) 4057 Gear ratio (MEDIUM HIGH gear) 4058 Gear ratio (MEDIUM LOW gear) 4059 Gear ratio (LOW gear) [Data type] Word [Unit of data] Motor speed per spindle rotation × 100 [Valid data range] 0 to 32767 These parameters set the ge
Page 214GFKE-0218A-EN 11.APPLYCATION OF OTHER FUNCTIONS 11.6 SPINDLE ORIENTATION 11.6.1 Overview The dual check safety function uses the CNC CPU and spindle DSP to separately monitor the actual speed of the spindle (safe speed monitoring function). When the stop status of the spindle is monitored by the saf
Page 21511.APPLYCATION OF OTHER FUNCTIONS GFKE-0218A-EN 11.6.3 Signals 11.6.3.1 Details on signals Orientation command signal ORCMA [Classification] Input signal [Function] This signal specifies spindle orientation. When this signal is set to 1, the spindle immediately decelerates during rotation an
Page 216GFKE-0218A-EN 11.APPLYCATION OF OTHER FUNCTIONS Orientation completion signal ORARA [Classification] Output signal [Function] This signal is set to 1 when the orientation command is entered and the spindle stops near the specified fixed position. [Output condition] This signal is set to 1 wh
Page 21711.APPLYCATION OF OTHER FUNCTIONS GFKE-0218A-EN 4031 Position coder method orientation stop position [Data type] Word [Unit of data] 1 pulse unit (360°/4096) [Valid data range] 0 to 4096 Set the position coder method orientation stop position. 4038 Spindle orientation speed [Data type] Word [Unit of
Page 218GFKE-0218A-EN 11.APPLYCATION OF OTHER FUNCTIONS 4060 Position gain on orientation (HIGH gear) 4061 Position gain on orientation (MEDIUM HIGH gear) 4062 Position gain on orientation (MEDIUM LOW gear) 4063 Position gain on orientation (LOW gear) [Data type] Word [Unit of data] 0.01 sec-1 [Valid data r
Page 21911.APPLYCATION OF OTHER FUNCTIONS GFKE-0218A-EN 11.6.5 Sequence The following is a sample sequence in which orientation is specified during rotation of the spindle and work is conducted with the spindle stopped. M otor speed ORCMA Speed com m and SFRA (S RVA ) ORARA S afe speed Level sw itching O pe
Page 220GFKE-0218A-EN 12.COMPONENTS LIST 12 COMPONENTS LIST - 211 -
Page 22112.COMPONENTS LIST GFKE-0218A-EN 12.1 HARDWARE COMPONENTS 12.1.1 Hardware Components for Series 16i/18i/21i/160i/180i/210i/160is/180is/210is-MODEL A Specification number Specification number No. Description Remarks Of primary component of secondary component 1 Main board A20B-8100-0130 A20B-8100-013
Page 222GFKE-0218A-EN 12.COMPONENTS LIST 12.1.3 Hardware Components for Other Units Specification number Specification number No. Description Remarks Of primary component of secondary component 1 FSSB ADDITIONAL A20B-2100-0270 DETECTOR INTERFACE 2 I/O module A20B-2100-0150 A20B-2002-0400 A20B-2100-0410 A20B
Page 22312.COMPONENTS LIST GFKE-0218A-EN 12.2 SOFTWARE COMPONENTS [CNC software] Series / Version Functions Series 16i-TB CNC functions for lathe with up to 8 servo Series 160i-TB B1H1 axes and up to 2 spindle axes. Series 160is-TB Series 18i-TB CNC functions for lathe with up to 6 servo Series 180i-TB BEH1
Page 224GFKE-0218A-EN 12.COMPONENTS LIST 12.3 SERVO AMPLIFIER No. Description Module Name Specification number Remarks 1 Power Supply Module PSM-5.5 A06B-6077-H106 (Standard, 200V input) PSM-11 A06B-6077-H111 PSM-15 A06B-6087-H115 PSM-26 A06B-6087-H126 PSM-30 A06B-6087-H130 PSM-37 A06B-6087-H137 PSM-45 A06B
Page 22512.COMPONENTS LIST GFKE-0218A-EN No. Description Module Name Specification number Remarks 5 Servo Amplifier Module SVM1-180HVi A06B-6124-H106 (1 axis type, 400V input) SVM1-360HVi A06B-6124-H109 6 Servo Amplifier Module SVM1-4i A06B-6130-H001 (βi series, 200V input) SVM1-20i A06B-6130-H002 SVM1-40i
Page 226GFKE-0218A-EN 12.COMPONENTS LIST No. Description Module Name Specification number Remarks 12 Spindle Amplifier Module SPM-11-4 A06B-6102-H111#H520 (SPM HRV Type IV, 200V input) SPM-15-4 A06B-6102-H115#H520 SPM-22-4 A06B-6102-H122#H520 SPM-26-4 A06B-6102-H126#H520 SPM-30-4 A06B-6102-H130#H520 SPM-45-
Page 227B-63494EN/02 INDEX INDEX Directives ..........................................................................2 DUAL CHECK SAFETY DIAGNOSIS SCREEN .......154 1-CPU 2-Path Control ..................................................... 99 1-CPU 2-path Control (Series 16i/18i-TB) ..............
Page 228INDEX B-63494EN/02 Initial Start-up ............................................................... 133 SAMPLE CONNECTIONS ..........................................170 INSTALLATION............................................................ 45 SAMPLE SYSTEM CONFIGURATION .....................165 Sc
Page 229Revision Record FANUC Series 16i/160i/160is/18i/180i/180is/21i/210i/210is-MODEL B Dual Check Safety OPERATOR’S MANUAL (B-63494EN) Addition of following items • Programmable safe-related i/o signals • Safety position switch signal • Overall connection diagram (loader control) 02 Nov., 2004 • Function