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  Table of Contents

 

 

1. General Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  

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            1.1 Standard Features………………………………………………………………………... 2 
            1.2 Additional Features for Enclosed Models……………………………………………….. 3 
            1.3 Optional Features………………………………………………………………………… 3 
            1.4 Programmable Features………………………………………………………………….. 3 

2. Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  

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3. Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 

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            3.1 Circuit Protection ……………………………………………………………………….. 5 
            3.2 Connection Information……………………………………………………………….…. 6 
            3.3 Terminal connections……………………………………………………………………..6 

4. Programming and Adjustments. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 

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            4.1 Programming Jumpers: Power Board………………………………………………….… 8 
            4.2 Programming Jumpers: Control Board………………………………………………….  9 
            4.3 Potentiometers: …………………………………………………………………………  9 
            4.4 Adjustment Procedure: Speed Regulator………………………………………………. 10 
            4.5 Adjustment Procedure: Torque Regulator……………………………………………… 12 
            4.6 DCM Checkpoints, Circuit Test Points and Buffered Outputs………………………….13 

5. Run-Brake Model. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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6. Spare Parts List. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 

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7. Prints . . . .  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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            A11097 – Myers Hub Installation………………………………………………………….. 17 
            D11265 – Control Board Schematic, All Models……………………………………...........18 
            D11267 – Control Board Assembly, All Models……………………………………………20 
            D11268 – Power Board Schematic, All 2 HP Models………………………………………21 
            D11270 – Power Board Assembly, All 2 HP Models……………………………………… 22 
            D11384 – Final Assembly, BRC702, All 2 HP Chassis……………………………………. 23 
            D11378 – Dimension Drawing, All 2 HP Chassis……………………………………….… 24 
            D11388 – Final Assembly, All 2 HP Enclosed with Controls……………………………... 25 
            D11386 – Final Assembly, All 2 HP Models without Controls……….…………………… 26 
            D11377 – Dimension Drawing, All 2 HP Enclosed……………….……………………….. 27 
            D11380 – Connection Drawing, 2 HP Models without Controls….…...…………………... 28 
            D11379 – Connection Drawing, 2 HP Models with Controls……………………………… 29 
            D11271 – Power Board Schematic, All 5 HP Models………………………………………30 
            D11273 – Power Board Assembly, All 5 HP Models……………………………………… 31 
            D11442 – Final Assembly, All 5 HP Chassis………………………………………………. 32 
            D11445 – Dimension Drawing, All 5 HP Chassis…………………………………………. 33 
            D11443 – Final Assembly, All 5 HP Enclosed with Controls……………………………... 34 
            D11444 – Final Assembly, All 5 HP Enclosed without Controls………………………….. 35 
            D11446 – Dimension Drawing, All 5 HP Enclosed………………………………………... 36 
            D11381 – Connection Drawing, 5 HP Models with Controls……………………………… 37 
            D11382 – Connection Drawing, 5 HP Chassis and no Controls Models…………………... 38 

 
 

 

Summary of Contents for BLAZER IV

Page 1: ...Instruction Manual Models BRC702 000 BRC705 000 BRC702 0B0 BRC705 0B0 BRC702 E00 BRC705 E00 BRC702 EB0 BRC705 EB0 BRC702 E0C BRC705 E0C BRC702 EBC BRC705 EBC BLAZER IV BRC700 Series ...

Page 2: ...els 20 D11268 Power Board Schematic All 2 HP Models 21 D11270 Power Board Assembly All 2 HP Models 22 D11384 Final Assembly BRC702 All 2 HP Chassis 23 D11378 Dimension Drawing All 2 HP Chassis 24 D11388 Final Assembly All 2 HP Enclosed with Controls 25 D11386 Final Assembly All 2 HP Models without Controls 26 D11377 Dimension Drawing All 2 HP Enclosed 27 D11380 Connection Drawing 2 HP Models witho...

Page 3: ...de energizing the armature contactor to extend contactor life Bridge delay circuitry built in to extend contactor life Terminal strip access to the Total Reference Setpoint Velocity Loop Output and Current Loop Input for systems interface applications Internal jog pot for adjustment of Jog Speed Summing Input with on board trim pot to allow voltage summing with Speed Reference Jumper selection to ...

Page 4: ...e selector Choose from four different current ranges on BRC702 and six on BRC705 J2 Select voltage range for Dynamic Brake Resistor J3 115 230 VAC scaling jumper J4 J5 115 230 VAC input voltage selectors Note J2 J3 J4 and J5 are not on the BRC705 models Control Board J6 Reserved for future use J7 R STOP Ramp Stop selector Allows the use of a normally open NO or normally closed NC contact to activa...

Page 5: ...BRC702 1 4 to 1 HP 115 VAC 1 2 to 2 HP 230 VAC Model BRC705 1 2 TO 5 HP 230 VAC SPEED REGULATION Armature Feedback 1 0 of base speed Tachometer Feedback or Encoder Feedback 0 5 of base speed TORQUE REGULATION 2 of range selected ADJUSTMENTS Max Speed 20 to 10 of base speed Current Limit 0 to 150 of current range IR Compensation range set by current range jumper ACCEL and DECEL linear independently...

Page 6: ...MPS SC 50 NOTE Fuses shown are manufactured by Bussman Littelfuse type SLC may be substituted 3 3 1 Circuit Protection All BRC700 models should be installed in accordance with the National Electrical Code and any applicable local or state codes All wiring should be rated at a min of 90ºC Field wiring terminal TB1 should be torqued to 12 in lbs Field wiring terminals TB2 and TB3 should be torqued t...

Page 7: ...device in parallel with the coil to minimize interference with the control 3 3 Terminal Connections L1 and L2 A C Line Connections These terminals are used for the A C line input For Models BRC702 either 115 VAC or 230 VAC input can be connected to terminals TB1 1 and TB1 2 If 115 VAC is to be used as input place J2 J3 J4 J5 in the 115V position If 230 VAC is to be used as input place J2 J3 J4 J5 ...

Page 8: ...peed Regulator jumper this terminal to TB3 1 If the drive is to be used as a Torque Regulator jumper this terminal to TB3 3 Refer to connection drawings D11379 or D11380 in Section 7 An external Torque Reference Signal may also be applied to this terminal for special engineered applications The signal applied should not exceed 10 VDC NOTE Jumpers must be removed if an external signal is used TB3 3...

Page 9: ... is for the encoder signal input Terminal 12 is a 12 VDC 100 mA supply for powering the encoder 4 1 Programming Jumpers Power Board J1 Armature Current Torque Range Used to program the control according to the motor nameplate full load armature current The CURRENT LIMIT pots have a range up to 150 of the current level selected Refer to the following table to select proper jumper location based on ...

Page 10: ...her J10 Jog Delay Activates or deactivates the contactor disengage delay This delay is provided to help increase the service life of the armature contactor The normal setting is in the ACTIVATE position but for some applications deactivate may be required J11 Jog Sum Programs the control to allow the Sum signal to be added to the Jog signal if J11 is set to JOG SUM If J11 is set to NOT JOG SUM JOG...

Page 11: ...n the position of the ACCEL DECEL programming jumpers Clockwise rotation of the ACCEL pots increase the time to accelerate the motor linearly to full speed To accelerate to speeds less than full speed will take less time For example to accelerate to 50 speed would take 50 of the acceleration time P7 Forward Decel and P12 Reverse Decel Sets the deceleration time based on the position of the ACCEL D...

Page 12: ...E The IR COMP signal may affect the maximum speed settings After setting the IR COMP recheck the MAX speed in each direction and readjust if necessary Go to STEP 7 STEP 5 If tachometer feedback is to be used verify that the tach leads are connected to TB3 9 and 10 The tach inputs are polarity insensitive which means the tach can be wired either way With the control in armature feedback run the mot...

Page 13: ...roduced at full rated armature current In the following steps motor torque should be monitored directly by use of a D C ammeter connected in series with the motor armature The motor shaft must be prevented from rotating in order to properly set the Current Limit There are two recommended ways of preventing motor rotation 1 Mechanically lock the motor shaft to prevent rotation This is probably the ...

Page 14: ...will vary no more than 5 with a 10 change in line voltage TOTAL REFERENCE SETPOINT The Total Reference Setpoint equals 10 0 VDC at 100 speed reference command Negative polarity indicates a forward direction command A1 motor terminal positive with respect to A2 motor terminal and positive polarity indicates a reverse direction command This signal is the total of the reference input and the summing ...

Page 15: ... velocity feedback in the TFB mode SCALED ENCODER FEEDBACK The 300 PPR encoder signal is scaled to 8 volts SCALED BIPOLAR VELOCITY FEEDBACK This signal is primarily used to create a velocity error signal so that the speed can be controlled It is also used for zero speed sensing VELOCITY INTEGRATOR This is the Velocity loop output and the torque demand signal CURRENT INTEGRATOR This is the Current ...

Page 16: ... line voltage 24 VDC and 24 VDC These are power supplies that will vary no more than 5 with a 5 line voltage variation Models BRC702 0B0 EB0 and EBC are designed for Run Brake operation on 1 4 to 1HP 90 VDC armature motors or 1 2 to 2 HP 180 VDC armature motors Model BRC705 0B0 EB0 and EBC are designed for Run Brake operation on 1 2 to 5 HP 180 VDC armature motors For BRC702 with 180 VDC applicati...

Page 17: ... Number D11267 001 Line Fuse 20 AMP 250 VAC for BRC702 Part Number FUS1005 05 Line Fuse 50 AMP 250 VAC for BRC705 Part Number FUS1002 00 Armature Contactor for BRC702 Part Number REL2013 00 Armature Contactor for BRC705 Part Number REL2014 00 Dynamic Brake Resistor 4 Ohms 100 Watts Part Number RES62 0004 Control Panel membrane switch for BRC702 Part Number SWI5004 00 Control Panel membrane switch ...

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Page 41: ...d maintained performin compliance with such system s written specifications for a period of one 1 year from the date of shipment of such system As the Purchaser s sole and exclusive remedy under said warrant in regard to such systems including but not limited to remedy for consequential damages the Company will at its option cause without charges any such system to so perform which system is found...

Page 42: ...3204 Rocky River Road Heath Springs SC 29058 Phone 803 286 8614 Fax 803 286 6063 Email saleserv carotron com Web www carotron com MAN1008 00 Rev E Issued 01 30 2019 ...

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