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A06B-6111-H011

A06B-6111-H011 FANUC Alpha i Series Spindle Power Module (AiSPM-11i TYPE-I)

Qty Available: 2

Availability: In stock

Product will be delivered in 3-5 days.

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Replacement Warranty

Warranty:
30 Days replacement warranty for this product.

Details

Details

A06B-6111-H011 Fanuc Alpha i Series Spindle Power Module is in stock NOW. Fanuc Alpha i Series Spindle Power Module Exchange, Test and Repair with Comprehensive Testing Facility. The 6111-H011 is a Rated Input DC 13.2 KW & Rated Output 48 Amp. Spindle Drive with FANUC Serial Interface Normally Fitted with a Alpha i SP6 & Alpha i SP8 Series Spindle Motor. All A06B-6111-H011 Alpha i Spindle Amplifier Module are Compatible With Fanuc FS-16/18/21i Model-B & FS-0i Model-B/C/D Generation Controls and Fanuc Alpha i Series Spindle Motors.

Warranty is 30 days on Exchange, Repair units. Prices are available on asking (P.O.A).

Technical Specifications

Additional Info

A06B-6111-H011#H550 (SPM-11i) Technical Specification


Control Card Part Number A20B-2100-0800
Power Card Part Nuber A16B-2203-0652
 

Alarms Details (Red LED)


AL-01: Motor Overheat
AL-02: Excess Speed Deviation
AL-03: Fuse on DC Link Blown
AL-04: Input Fuse Blown
AL-05: Control Power Supply Fuse Blown
AL-06: Overspeed (Analog) (Temperature Sensor Disconnected)
AL-07: Overspeed (Digital)
AL-08: High 24v Input Voltage
AL-09: Overheat Power Semiconductors
AL-10: Low 15v Input Voltage
AL-11: DC Link High Voltage
AL-12: DC Link Overcurrent
AL-13: Data Memory Fault CPU
AL-14: Defective ROM
AL-15: Defective Optional Circuit
AL-16: NVRAM Fault
AL-17: NVRAM Checksum Fault
AL-18: ROM Checksum Fault
AL-19: IU Offset Current Alarm
AL-20: IV Offset Current Alarm
AL-21: VCMD Offset Alarm (Position Sensor Polarity Setting Incorrect)
AL-22: TSA Offset Alarm
AL-23: ER Offset Alarm
AL-24: Serial Transfer Data Error
AL-25: Serial Transfer Stop
AL-26: C Velocity Detector Disconnected
AL-27: Position Coder Disconnected
AL-28: C Position Detector Disconnected
AL-29: Short Period Overload
AL-30: Overcurrent Power Circuit
AL-31: Motor Lock or V Signal Lost
AL-32: Serial communication LSI RAM Error
AL-33: DC Link Pre Charge Failure
AL-34: Parameter Setting Error
AL-35: Gear Ratio Parameter Error
AL-36: Error Counter Overflow
AL-37: Speed Detector Parameter Error
AL-38: x
AL-39: One Rotation Cs Signal Error
AL-40: Cs One Rotation Signal Detection Error
AL-41: Position Coder One Rotation Signal Detection Error
AL-42: One Rotation Position Coder Detected Error
AL-43: Disconnected PC for DIF. SP. MOD. 
AL-44: Control Circuit AD Error
AL-45: x
AL-46: Thread Cutting One Rotation Position Coder Alarm
AL-47: Position Coder Signal Abnormal
AL-48: x
AL-49: High Conversion DIF. SPEED 
AL-50: Excessive speed command calculation value during spindle synchronization
AL-51: Low Volt DC Link
AL-52: ITP Signal Abnormal 1
AL-53: ITP Signal Abnormal 2 
AL-54: Current Overload Alarm
AL-55: Abnormal Switching Status of Power Leads
AL-56: Inner Cooling Fan Stopped
AL-57: Excessive Deceleration Power
AL-58: Overload in Fanuc Power Supply Unit 
AL-59: Cooling Fan Stopped in PSM  
AL-60: x
AL-61: x
AL-62: x
AL-63: x
AL-64: x
AL-65: x
AL-66 Communication alarm between spindle and amplifier
AL-67: x
AL-68: x
AL-69: Safety speed exceeded
AL-70: Abnormal axis data
AL-71: Abnormal safety parameter
AL-72: Motor speed mismatch
AL-73: Motor sensor disconnected
AL-74: CPU test alarm
AL-75: CRC test alarm
AL-76: Safety function not executed
AL-77: Axis number mismatch
AL-78: Safety parameter mismatch
AL-79: Abnormal initial test operation
AL-80: x
AL-81: Motor sensor one-rotation signal detection error
AL-82: Motor sensor one-rotation signal not detected
AL-83: Motor sensor signal error
AL-84: Spindle sensor disconnected
AL-85: Spindle sensor one-rotation signal detection error
AL-86: Spindle sensor one-rotation signal not detected
AL-87: Spindle sensor signal error
AL-88: Cooling fan stopped of the radiator

 

A0: Program ROM error
A1: Program ROM error
A2: Program ROM error
b0: Communication error between amplifier and module
b1: 6 Converter: control power supply low voltage
b2: 8 Converter: excessive regenerative power
b3: A Converter: cooling fan stopped of the radiator
C0: Communication data alarm
C1: Communication data alarm
C2: Communication data alarm
C3: Spindle switching circuit error

 

Status (Amber LED)

ER-01 SFR (normal rotation command), SRV (reverse rotation command), or ORCM (orientation command) is entered when ESP (emergency stop signal, which may be a input signal or contact signal) and MRDY (machine ready signal) are not applied. Check the sequence of *ESP and MRDY. For MRDY, check bit 0 of parameter No. 4001, specifying whether to use the MRDY signal.

 

ER-02 When the spindle and Fanuc spindle Motors are specified separately (with bit 5 of parameter No. 4001 set to 1, and bit 6 of parameter No. 4001 set to 0) in a system employing a high–resolution magnetic pulse coder, 128 /rev must be set for the motor speed detector (bits 2, 1, and 0 of parameter No. 4011 must be set to 0, 0, and 1, respectively). However, a value other than 128 /rev is set. In such a case, the motor is not activated. Check the parameter settings.

 

ER-03 The Cs contouring control command is input although bit 5 of parameter No. 4001 is set to 0 to specify that a high-resolution magnetic pulse coder is not used or although bit 4 of parameter No. 4018 is set to 0 to specify that the sensor Cs contouring control function is not used. In such a case, The motor is not activated. Check the parameter settings.

 

 

ER-04 When bit 2 of parameter No. 4001 is set to 0 to specify that a position coder signal is not used, a command for servo mode control (rigid tapping, Cs axis control, etc.) or spindle synchronization control is entered. In such a case, the motor is not activated.
Check the parameter setting enabling the use of a position coder signal.

 

ER-05 When the option parameter of the orientation function is not set, ORCM (orientation command) is entered. Check the parameter setting enabling the use of the orientation function.

 

ER-06 When the option parameter of the speed range switching control function is not set, winding for low–speed characteristics is selected (with RCH =1). Check the setting of the parameter for using the speed range switching control function, and the
power line status check signal (RCH).

 

ER-07 When the Cs contouring control command is entered, neither SFR (normal rotation command) nor SRV (reverse rotation command) is entered. Check the sequence.

 

ER-08 When a servo mode control command (rigid tapping, Cs axis control, etc.) is entered, neither SFR (normal rotation command) nor SRV (reverse rotation command) is entered. Check the sequence.

 

ER-09 When the spindle synchronization control command is entered, neither SFR (normal rotation command) nor SRV (reverse rotation command) is entered. Check the sequence.

 

ER-10 When the Cs contouring control command is entered, a another mode (such as the servo mode, spindle synchronous control, and orientation) is specified. When Cs contouring control is specified, do not specify another mode. To enter another mode, first cancel the Cs contouring control command.

 

ER-11 When a servo mode control command (rigid tapping, Cs axis control, etc.) is entered, another mode (such as Cs contouring control, spindle synchronization control, and orientation) is specified. When a fanuc ac servo mode is specified, do not specify another mode. To enter another mode, first cancel the servo mode command.

 

ER-12 When the spindle synchronization control command is entered, another mode (Cs contouring control, servo mode, or orientation) is specified. When spindle synchronization control is specified, do not specify another mode. To enter another
mode, first cancel the spindle synchronization control command.

 

ER-13 When the orientation command is entered, another mode (Cs contouring control, servo mode, or spindle synchronization control) is specified. When orientation is specified, do not specify another mode. To enter another mode, first cancel the orientation command.

 

ER-14 SFR (normal rotation command) and SRV (reverse rotation command) are entered at the same time. Specify only SFR or SRV at one time.

 

ER-15 When bit 5 of parameter No. 4000 is set to 1 to specify the use of the differential speed control function, the Cs contouring control command is entered. Check the parameter setting and input signal.

 

ER-16 When bit 5 of parameter No. 4000 is set to 0 to specify that the differential speed control function is not used, DEFMD (differential speed mode command) is entered. Check the parameter setting and the differential speed mode command.

 

ER-17 The setting of bits 2, 1, and 0 of parameter No. 4011 for specifying a speed detector is incorrect. The specified speed detector cannot be found. Check the parameter setting.

 

ER-18 When bit 2 of parameter No. 4001 is set to 0 to specify that a position coder signal is not used, orientation by a position coder is specified. Check the parameter setting and input signal.

 

ER-19 When orientation by a magnetic sensor is specified, another mode (Cs contouring control, servo mode,
or spindle synchronization control) is specified. When orientation is specified, do not specify another mode. To enter another mode, first cancel the orientation command.

 

ER-20 When bit 5 of parameter No. 4014 is set to 1 to specify use of the slave operation function, bit 5 of parameter No. 4001 is set to 1 to specify use of a high resolution magnetic Fanuc Pulse Coder. The use of the slave operation function and that of a high resolution magnetic pulse coder cannot be specified at the same time. Check the parameters settings.

 

ER-21 In a position control mode (servo mode, orientation, etc.), SLV (slave operation command) is entered. Enter the slave operation command in normal operation mode only.

 

ER-22 In slave operation mode, a position control command (servo mode, orientation, etc.) is entered. Enter a position control command in normal operation mode only.

 

ER-23 When bit 5 of parameter No. 4014 is set to 0 to specify that the slave operation function is not used, SLV (slave operation command) is entered. Check the parameter setting.

 

ER-24 In continuous indexing with orientation by a position coder, incremental operation (INCMD = 1) is first performed, after which the absolute position command (INCMD = 0) is entered. Check INCMD (incremental command). Before specifying absolute position commands in succession, perform absolute position command orientation.

 

ER-25 Bit 4 of parameter No. 4018 is set to 1 to enable the sensor Cs contouring control function although SPM TYPE 4 is not selected. Check the parameter setting & SPM drawing number. FANUC INDIA PVT. LTD

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