1
Download 62-2032—01 - SmartVFD Three Contactor and Three
Transcript
SmartVFD Three Contactor and Three Contactor Auto-Bypass Assemblies INSTALLATION INSTRUCTIONS APPLICATION Three Contactor Bypass The Smart VFD Three Contactor Bypass Assemblies channel electrical power either through or around the variable frequency drive (VFD). INSTALLATION When Installing This Product 1. 2. 3. 4. 5. Read these instructions carefully. Failure to follow them could damage the product or cause a hazardous condition. Check the ratings given in the instructions, Honeywell SmartVFD manual’s and on the product to make sure the product is suitable for your application. Verify bypass model is correct; no damage has been incurred; no screws, connections, terminations are loose. Installer must be a trained, experienced service Technician, with VFD operation experience. After installation is complete, check out product operation as provided in these instructions. WARNING 1. 2. 3. Can Cause Serious Injury or Death Installation requires work with voltages that may cause serious injury or death. This instruction manual is intended as a guide only. End user is responsible for proper application of this assembly, insuring proper conformance, directives, intended use and maintaining all safety practices as described in Honeywell SmartVFD manual, local codes, and local safety authorities. Disconnect power supply before installation, and before any servicing. CAUTION Equipment Damage Hazard. Can short equipment circuitry. Disconnect power supply before installation Location and Mounting Locate the device in a clean, dry, well-ventilated area with an ambient temperature below 104°F (40C). Refer to SmartVFD user manual for free air space requirements above and to the sides of SmartVFD’s. Insure proper branch/short circuit protection is provided. WIRING IMPORTANT All wiring must agree with applicable codes, ordinances and regulations. Variable frequency drive can store energy. Refer to VFD manual for safe work practices and appropriate wait times before servicing after equipment power has been de-energized. All safety, warning and caution information located in Honeywell SmartVFD manuals must be read, understood and followed. 1. 2. 3. 4. 5. 6. 7. 8. Ensure that bypass panel voltage corresponds with that of the power supply. To access the bypass panel wiring compartment: a. Ensure the main disconnect handle is in the OFF position. b. Open the cover. c. Test for power. Refer to SmartVFD user manual “Power Cabling” and “Control Unit” for proper power and control wire sizing information. Terminate input three phase power wiring to line side of main fused disconnect. Refer to bypass panel schematic. Terminate three phase motor wiring to motor terminals “T1”, “T2”, “T3”. Refer to bypass panel schematic. Terminate VFD control wiring to proper terminal in bypass panel. Refer to bypass panel schematic. If equipped with Auto bypass, leave jumper J2 on bypass panel terminals 4 & 5 for auto bypass operation. Remover jumper J2 for manual bypass operation. Leave jumper J1 on bypass panel terminals 1 & 3 if fire/ smoke/safety shutdown not used. If this shutdown is used, remove jumper J1 and terminate fire/ smoke/ safety shutdown to bypass panel terminals 1 & 3. Refer to schematic for typical wiring. IMPORTANT Use only copper wire with 167°F (75°C) minimum. Put Bar Code Here 62-2032-01 SMARTVFD THREE CONTACTOR AND THREE CONTACTOR AUTO-BYPASS ASSEMBLIES OPERATION 1. 2. 3. 4. 5. 6. 7. Auto Bypass Equipped An Auto-Bypass model number will end with G131/U, G231/U, G331/U. Make sure bypass panel and motor are properly grounded. Make sure all connection points are tight, including all bypass panel connection points. Make sure all safeties (customer’s option) are connected and in working order. Double-check correct voltage is being applied and power and motor wiring are terminated in the correct place. Verify motor FLA does not exceed VFD output amp rating and bypass starter overload relay setting dial. Set bypass starter overload relay adjustment dial to motor FLA. Verify building automation system is ready for start, stop, speed command; and all wires are terminated in the correct location. 1. 2. Effective 6/5/12 VFD digital input for “VFD Enable” on all models equipped with the AUTO BYPASS CONTROL option has changed from “DIN2” to “DIN4”. Changes reflected on “HONEYWELL SMARTVFD, 3 CONTACTOR BYPASS PANEL, WITH AUTO BYPASS” schematic, page 4. Before applying power, make sure all personnel, debris, etc. are clear. Verify main input disconnect handle is in the “OFF” position; “Bypass/Off/Test/VFD” selector switch is in the “OFF” position. 1. 2. 3. 4. 5. Apply input power, check three phase voltage on line side of main disconnect switch. Turn main disconnect handle to “ON” position. Turn “Bypass/Off/Test/VFD” selector switch to “Test” position. Enter all appropriate parameters in “SetUp Wizard” and all motor nameplate data. See SmartVFD manuals. Turn “Bypass/Off/Test/VFD” selector switch to “VFD” position. Press “Loc/Rem” button and program correct parameters for local (keypad) control. See SmartVFD manuals. Check motor rotation. a. If motor is rotating backwards in VFD mode, shut down power, lock out power source, wait until VFD stored energy has dissipated, switch incoming motor wires on the “T1” and “T2” terminals in the bypass panel, or motor wires “T1” and “T2” in the motor junction box. Re-energize power and check rotation again. Turn “Bypass/Off/Test/VFD” selector switch to “Off” position. Wait for motor to stop. Turn selector switch to “Bypass” position then back to “Off” position. Do not leave the motor running in “Bypass” position. Check motor rotation. a. If motor is rotating backwards in Bypass mode, shut down power, lock out power source, test incoming voltage on incoming line power wiring to line side of main disconnect switch. Once it is established that power is shut down, swap incoming wires on “L1” and “L2” of main disconnect switch. Re-energize power and check rotation again. IMPORTANT: If you have had a need to perform a factory reset of Smart VFD HVAC parameters, then you also need to perform the following steps. a. Go to Parameter: M3.5.1.16 (Preset Frequency Selection 0). Change DigiN SlotA.4 to be “DigiN Slot 0.1”. The Preset Speed will be turned off and DigiN4 will be used as Run Enable. b. Go to Parameter M.3.5.1.10 (Run Enable). Change DigiN Slot0.2 to be “DigiN Slot A.4”. Operation Using the VFD (TEST Position) To set bypass panel to power the VFD without powering the motor: 1. 2. 3. 4. Stop the motor. Wait five seconds. Rotate switch to TEST. Start the VFD (see VFD instructions for details). Operation Using the VFD (VFD Position) To set bypass panel to use VFD to control the motor as it would without the bypass panel: 1. 2. 3. 4. Stop the motor. Wait five seconds. Rotate switch to VFD. Start the VFD (see VFD instructions for details). VFD Bypass Bypass panel “Bypass/Off/Test/VFD” selector switch has four operating positions: 1. VFD: Device directs power to VFD first, then to the motor. VFD controls the motor as it would without the bypass panel. 2. OFF: Device stops power. Power reaches neither the motor nor the VFD. 3. TEST: Device directs power to VFD only. This allows for VFD calibration, adjustments, and diagnostics. 4. BYPASS: Device directs power to motor only. No power reaches the VFD. The motor operates at full speed with full power. 62-2032—01 AUTO BYPASS CONTROL: Bypass panel will automatically switch motor over to bypass starter if VFD faults. Bypass can also be selected remotely via contact closure on bypass panel terminals 6 & 7. Jumper J2 on bypass panel terminals 4 & 5 must remain in place for auto bypass operation. Removing jumper J2 sets bypass panel to: “Manual Bypass” – will not automatically switch to bypass upon a VFD fault. Bypass would need to be selected by turning “Bypass/ Off/Test/VFD” selector switch to “Bypass” position. VFD is pre-programmed at bypass manufacturing facility for “Auto Bypass” operation. To set bypass panel to direct power only to motor: 1. 2. Rotate switch from VFD to OFF. Wait five seconds. IMPORTANT Switching the bypass panel to BYPASS can immediately turn the motor on. 3. 2 Rotate switch to BYPASS. SMARTVFD THREE CONTACTOR AND THREE CONTACTOR AUTO-BYPASS ASSEMBLIES LINE VOLTAGE, 3 PHASE, 60 HZ GND T1 L2 T2 T1 OL1 T2 .57 L1 L2 L3 T1 BC L3 SMART VFD T3 GND W1 V1 U1 T3 .57 L1 DIS1 MAIN FUSED DISC. FU1, FU2, FU3, CLASS J, TIME DELAY DIC T2 T3 L2 .51 DOC U2 TB T1 TB T2 TB T3 W2 T1 T2 T3 .53 L1 L2 L3 V2 M SEE NOTE 1 L1/1.40 TB L3/1.40 FFSI 2 1 SEE NOTE 2 J1 TB 4 SEL SW POSITION BYPASS OFF TEST VFD FU4 2 1 CLASS CC PRIMARY FUSE 2 1 CLASS CC PRIMARY FUSE FU5 1 ENERGIZED DOC DE-ENERGIZED DE-ENERGIZED DE-ENERGIZED TB 8 .53 DOC .57 BC FU6 1 1 2 250V, MIDGET SECONDARY FUSE 6 13 DIC DE-ENERGIZED DE-ENERGIZED ENERGIZED 7 5 OL1 .11 3 8 2 A1 X1 DIC G BC LT2 A2 A2 X2 A2 TB 2 2 BYPASS CONTACTOR VFD RUN DRIVE OUTPUT CONTACTOR DRIVE INPUT CONTACTOR M34045 BYPASS RUN ENCLOSURE HEATER SEE NOTE 3 ENCLOSURE CIRC FAN1 SEE NOTE 3 TB FAN ENCLOSURE CIRC FAN2 SEE NOTE 3 AI2 AO1 DIP SWITCHES DETAIL “B” ON RS485 CURRENT CURRENT AI1 VOLTAGE VOLTAGE VOLTAGE LOCATED BEHIND COVER, RIGHT SIDE OF KEYPAD. CURRENT OFF FAN BUILT IN T-STAT HEATER X1 Y X2 A1 LT1 DOC A1 T1 CONTROL TRANSFORMER TB SEE NOTE 3 BC ENERGIZED DE-ENERGIZED DE-ENERGIZED DE-ENERGIZED NOTE 1: ALL PANELS SHIPPED WITH VFD DEFAULT PROGRAMMING PARAMETERS. SET DIP SWITCHES AS NEEDED, SEE DETAIL “B” NOTE 2: IF CUSTOMER SAFETY INTERLOCK IS USED, REMOVE J1. NOTE 3: TS1, ENCLOSURE FAN1 STD ON ALL NEM3R PNLS. ENCLOSURE FAN2, ON 25HP & LARGER @ 480V. HEATER IS OPTIONAL ON ALL NEMA 3R PNLS. ENERGIZED SS1 - FOUR POSITION SEL. SW. DETAIL “A” SEE NOTE 3 TS1 X000 SS1 SEE DETAIL “A” 000X 000X OFF TEST BYPASS VFD 3 9 00X0 3 CUSTOMER SUPPLIED FREEZE/FIRE/SMOKE INTERLOCK MOTOR HP RPM AMP VFD SPEED REFERENCE USE 2 CONDUCTOR SHD, TWISTED PAIR WIRE GND SHD AT FIELD END ALL WIRING: USE COPPER WIRE ONLY SUITABLE FOR MIN. 75 DEG. C, FIELD WIRING, NEC CLASS 1. MOTOR AND FEEDER WIRE SIZE MUST BE IN ACCORDANCE WITH NEC. FIELD WIRE WIRE INSIDE C/PNL OPTION 62-2032—01 3 L1 L3 GND VFDST SHIELD AI 0 - 10 VDC OR 4 - 20 mA AI 0 - 10 VDC OR 4 - 20 mA VFD START COMMAND 21 22 23 24 25 26 32 33 RELAY OUTPUT 3 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 30 A B RELAY OUTPUT 2 RO1/1 N.C. RO1/2 CM RO1/3 N.O. RO2/1 N.C. RO2/2 CM RO2/3 N.O. RO3/1 CM RO3/2 N.O. L1 L2 L3 L3 /1.41 T1 T2 T3 L1 /1.41 RELAY OUTPUT 1 +10VREF: REFERENCE OUTPUT AI1+: AI, VOLTAGE OR CURRENT GND/AI1-: AI COMMON AI2+: AI, VOLTAGE OR CURRENT GND/AI2-: AI COMMON 24V OUT: 24V AUXILIARY VOLTAGE GND: I/O GROUND DIN1: DIGITAL INPUT 1 DIN2: DIGITAL INPUT 2 DIN3: DIGITAL INPUT 3 CM: COMMON FOR DI1 - DI3 24V OUT: 24V AUXILIARY VOLTAGE GND: I/O GROUND DIN4: DIGITAL INPUT 4 DIN5: DIGITAL INPUT 5 DIN6: DIGITAL INPUT 6 CM: COMMON FOR DI4 - DI6 AO+: ANALOG SIGNAL +OUT AO-/GND: ANALOG OUTPUT COMMON +24VIN: 24V AUXILIARY INPUT VOLTAGE RS485: NEGATIVE RS485: POSITIVE Fig. 1. 3 Contactor Wiring Diagram SMARTVFD THREE CONTACTOR AND THREE CONTACTOR AUTO-BYPASS ASSEMBLIES T1 T2 T3 T2 T1 L2 .57 L1 T3 T2 T1 OL1 .57 L1 L3 BC L2 T3 SMART VFD L3 U1 V1 W1 GND GND DOC 21 22 U2 V2 TB T1 TB T2 TB T3 W2 T1 T2 T3 .53 L1 L2 L3 BCR .61 M SEE NOTE 1 11/1.63 4/1.63 MOTOR HP RPM AMP GND SHD AT FIELD END USE 2 CONDUCTOR SHD, TWISTED PAIR WIRE VFD SPEED REFERENCE VFD START COMMAND AI 0 - 10 VDC OR 4 - 20 mA AI 0 - 10 VDC OR 4 - 20 mA SHIELD L1/1.40 L3/1.40 SEE NOTE 2 J1 2 00X0 OFF TEST BYPASS VFD 1 4 000X 4 000X 9 4 FU4 1 2 CLASS CC PRIMARY FUSE .61 DOC DE-ENERGIZED DE-ENERGIZED DE-ENERGIZED .57 J2 .53 8 3 /1.57 BC 2 11 /1.31 DIC A1 DOC A1 BC A2 DRIVE INPUT CONTACTOR BYPASS CONTROL RELAY BYPASS RUN BYPASS CONTACTOR VFD RUN DRIVE OUTPUT CONTACTOR M34046 A2 A2 X2 A2 LT1 X1 G X2 A1 Y LT2 FAN FAN TB 10 ENCLOSURE CIRC FAN2 SEE NOTE 3 CIRC FAN1 SEE NOTE 3 TB 2 ENCLOSURE HEATER SEE NOTE 3 TB 2 ENCLOSURE BCR X1 A1 HEATER 15 BUILT IN T-STAT NOTE 3 11 .11 OL1 5 7 NOTE 3 14 8 T1 CONTROL TRANSFORMER TB 5 AUTO BYPASS JUMPER DOC 7 4A TB BC ENERGIZED DE-ENERGIZED DE-ENERGIZED DE-ENERGIZED AO1 AI2 OFF VOLTAGE VOLTAGE VOLTAGE LOCATED BEHIND COVER, RIGHT SIDE OF KEYPAD. CURRENT CURRENT AI1 CURRENT ON RS485 DIP SWITCHES DETAIL “B” CUSTOMER REMOTE BYPASS INDICATION TERMINALS SEE NOTE 4 - AUTO BYPASS OPTION TB 9 TB CUSTOMER REMOTE BYPASS CONTACT RBC TB ENERGIZED SEE NOTE 4 - AUTO BYPASS OPTION 6 .61 BCR 4B TB 4 BCR 1 F1U6 1 2 250V, MIDGET SECONDARY FUSE 6 TB 4 /1.31 DIC DE-ENERGIZED DE-ENERGIZED ENERGIZED 13 BC 1 2 CLASS CC PRIMARY FUSE FU5 CUSTOMER SUPPLIED FREEZE/FIRE/SMOKE INTERLOCK FFSI TB 3 TB 1 3 3 3 3 4 X000 SS1 SEE DETAIL “A” TS1 NOTE 3 ENERGIZED SS1 - FOUR POSITION SEL. SW. DETAIL “A” SEL SW POSITION BYPASS OFF TEST VFD NOTE 1: ALL PANELS SHIPPED WITH VFD DEFAULT PROGRAMMING PARAMETERS AS FACTURY DEFAULT EXCEPT PARAMETERS M3.5.1.16, WHICH IS SET TO SLOT 0.1, AND M3.5.1.10 WHICH IS SET TO SLOT A.4. THESE CHANGES ARE FOR “VFD ENABLE” FOR AUTO BYPASS CONTROL. SET DIP SWITHCHES SHOWN IN DETAIL “B” AS REQUIRED. NOTE 2: IF CUSTOMER SAFETY INTERLOCK IS USED, REMOVE J1. NOTE 3: TS1, ENCLOSURE FAN1 STD ON ALL NEM3R PNLS. ENCLOSURE FAN2, ON 30 , 40 & 100HP @ 480V. HEATER IS OPTIONAL ON ALL NEMA 3R PNLS. NOTE 4: RELAY BCR, BC N.O. CONTACT (PG2), TERM’ 4, 5, 6, 7, 9, 10 - AUTO BYPASS OPTION. REMOVE JUMPER J2 FOR MANUAL BYPASS. DIN4 - RUN ENABLE, RO2 - DRIVE FAULT. ALL WIRING: USE COPPER WIRE ONLY SUITABLE FOR MIN. 75 DEG. C, FIELD WIRING, NEC CLASS 1. MOTOR AND FEEDER WIRE SIZE MUST BE IN ACCORDANCE WITH NEC. FIELD WIRE WIRE INSIDE C/PNL OPTION Fig. 2. 3 Contactor Auto-bypass Wiring Diagram LINE VOLTAGE, 3 PHASE, 60 HZ GND DIC DIS1 MAIN FUSED DISC. FU1, FU2, FU3, CLASS J, TIME DELAY L1 L2 L3 .51 .53 VFDST DOC 21 22 23 24 25 26 32 33 TB 20 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 30 A B RELAY OUTPUT 2 L1 L2 L3 L3 /1.41 T1 T2 T3 L1 /1.41 RELAY OUTPUT 3 11 4 62-2032—01 4 RELAY OUTPUT 1 RO1/1 N.C. RO1/2 CM RO1/3 N.O. RO2/1 N.C. RO2/2 CM RO2/3 N.O. RO3/1 CM RO3/2 N.O. 20 +10VREF: REFERENCE OUTPUT AI1+: AI, VOLTAGE OR CURRENT GND/AI1-: AI COMMON AI2+: AI, VOLTAGE OR CURRENT GND/AI2-: AI COMMON 24V OUT: 24V AUXILIARY VOLTAGE GND: I/O GROUND DIN1: DIGITAL INPUT 1 DIN2: DIGITAL INPUT 2 DIN3: DIGITAL INPUT 3 CM: COMMON FOR DI1 - DI3 24V OUT: 24V AUXILIARY VOLTAGE GND: I/O GROUND DIN4: DIGITAL INPUT 4 DIN5: DIGITAL INPUT 5 DIN6: DIGITAL INPUT 6 CM: COMMON FOR DI4 - DI6 AO+: ANALOG SIGNAL +OUT AO-/GND: ANALOG OUTPUT COMMON +24VIN: 24V AUXILIARY INPUT VOLTAGE RS485: NEGATIVE RS485: POSITIVE SMARTVFD THREE CONTACTOR AND THREE CONTACTOR AUTO-BYPASS ASSEMBLIES Table 1. SmartVFD 3 Contactor and 3 Contactor Auto-Bypass NEMA1 Voltage HP Amps Frame 460 208 NEMA1 3 Contactor Bypass NEMA1 3 Contactor Auto Bypass NEMA12 NEMA12 3 Contactor Bypass NEMA3R NEMA12 3 Contactor NEMA3R 3 Contactor Auto Bypass Bypass NEMA3R Contactor Auto Bypass 1.5 3.4 4 HVFDSB3C0015G130 HVFDSB3C0015G131 HVFDSB3C0015G230 HVFDSB3C0015G231 HVFDSB3C0015G330 HVFDSB3C0015G331 2 4.8 4 HVFDSB3C0020G130 HVFDSB3C0020G131 HVFDSB3C0020G230 HVFDSB3C0020G231 HVFDSB3C0020G330 HVFDSB3C0020G331 3 5.6 4 HVFDSB3C0030G130 HVFDSB3C0030G131 HVFDSB3C0030G230 HVFDSB3C0030G231 HVFDSB3C0030G330 HVFDSB3C0030G331 4 8 4 HVFDSB3C0040G130 HVFDSB3C0040G131 HVFDSB3C0040G230 HVFDSB3C0040G231 HVFDSB3C0040G330 HVFDSB3C0040G331 5 9.6 4 HVFDSB3C0050G130 HVFDSB3C0050G131 HVFDSB3C0050G230 HVFDSB3C0050G231 HVFDSB3C0050G330 HVFDSB3C0050G331 7.5 12 4 HVFDSB3C0075G130 HVFDSB3C0075G131 HVFDSB3C0075G230 HVFDSB3C0075G231 HVFDSB3C0075G330 HVFDSB3C0075G331 10 16 5 HVFDSB3C0100G130 HVFDSB3C0100G131 HVFDSB3C0100G230 HVFDSB3C0100G231 HVFDSB3C0100G330 HVFDSB3C0100G331 15 23 5 HVFDSB3C0150G130 HVFDSB3C0150G131 HVFDSB3C0150G230 HVFDSB3C0150G231 HVFDSB3C0150G330 HVFDSB3C0150G331 20 31 5 HVFDSB3C0200G130 HVFDSB3C0200G131 HVFDSB3C0200G230 HVFDSB3C0200G231 HVFDSB3C0200G330 HVFDSB3C0200G331 25 38 6 HVFDSB3C0250G130 HVFDSB3C0250G131 HVFDSB3C0250G230 HVFDSB3C0250G231 HVFDSB3C0250G330 HVFDSB3C0250G331 30 46 6 HVFDSB3C0300G130 HVFDSB3C0300G131 HVFDSB3C0300G230 HVFDSB3C0300G231 HVFDSB3C0300G330 HVFDSB3C0300G331 40 61 6 HVFDSB3C0400G130 HVFDSB3C0400G131 HVFDSB3C0400G230 HVFDSB3C0400G231 HVFDSB3C0400G330 HVFDSB3C0400G331 50 72 7 HVFDSB3C0500G130 HVFDSB3C0500G131 HVFDSB3C0500G230 HVFDSB3C0500G231 HVFDSB3C0500G330 HVFDSB3C0500G331 60 87 7 HVFDSB3C0600G130 HVFDSB3C0600G131 HVFDSB3C0600G230 HVFDSB3C0600G231 HVFDSB3C0600G330 HVFDSB3C0600G331 75 105 7 HVFDSB3C0750G130 HVFDSB3C0750G131 HVFDSB3C0750G230 HVFDSB3C0750G231 HVFDSB3C0750G330 HVFDSB3C0750G331 100 140 8 HVFDSB3C1000G130 HVFDSB3C1000G131 HVFDSB3C1000G230 HVFDSB3C1000G231 HVFDSB3C1000G330 HVFDSB3C1000G331 120 170 8 HVFDSB3C1250G130 HVFDSB3C1250G131 HVFDSB3C1250G230 HVFDSB3C1250G231 HVFDSB3C1250G330 HVFDSB3C1250G331 150 205 8 HVFDSB3C1500G130 HVFDSB3C1500G131 HVFDSB3C1500G230 HVFDSB3C1500G231 HVFDSB3C1500G330 HVFDSB3C1500G331 0.75 3.7 4 HVFDSB3A0007G130 HVFDSB3A0007G131 HVFDSB3A0007G230 HVFDSB3A0007G231 HVFDSB3A0007G330 HVFDSB3A0007G331 1 4.8 4 HVFDSB3A0010G130 HVFDSB3A0010G131 HVFDSB3A0010G230 HVFDSB3A0010G231 HVFDSB3A0010G330 HVFDSB3A0010G331 1.5 6.6 4 HVFDSB3A0015G130 HVFDSB3A0015G131 HVFDSB3A0015G230 HVFDSB3A0015G231 HVFDSB3A0015G330 HVFDSB3A0015G331 2 8 4 HVFDSB3A0020G130 HVFDSB3A0020G131 HVFDSB3A0020G230 HVFDSB3A0020G231 HVFDSB3A0020G330 HVFDSB3A0020G331 3 11 4 HVFDSB3A0030G130 HVFDSB3A0030G131 HVFDSB3A0030G230 HVFDSB3A0030G231 HVFDSB3A0030G330 HVFDSB3A0030G331 5 18 5 HVFDSB3A0050G130 HVFDSB3A0050G131 HVFDSB3A0050G230 HVFDSB3A0050G231 HVFDSB3A0050G330 HVFDSB3A0050G331 7.5 24 5 HVFDSB3A0075G130 HVFDSB3A0075G131 HVFDSB3A0075G230 HVFDSB3A0075G231 HVFDSB3A0075G330 HVFDSB3A0075G331 10 31 5 HVFDSB3A0100G130 HVFDSB3A0100G131 HVFDSB3A0100G230 HVFDSB3A0100G231 HVFDSB3A0100G330 HVFDSB3A0100G331 15 48 6 HVFDSB3A0150G130 HVFDSB3A0150G131 HVFDSB3A0150G230 HVFDSB3A0150G231 HVFDSB3A0150G330 HVFDSB3A0150G331 20 62 6 HVFDSB3A0200G130 HVFDSB3A0200G131 HVFDSB3A0200G230 HVFDSB3A0200G231 HVFDSB3A0200G330 HVFDSB3A0200G331 25 75 6 HVFDSB3A0250G130 HVFDSB3A0250G131 HVFDSB3A0250G230 HVFDSB3A0250G231 HVFDSB3A0250G330 HVFDSB3A0250G331 30 88 7 HVFDSB3A0300G130 HVFDSB3A0300G131 HVFDSB3A0300G230 HVFDSB3A0300G231 HVFDSB3A0300G330 HVFDSB3A0300G331 40 105 7 HVFDSB3A0400G130 HVFDSB3A0400G131 HVFDSB3A0400G230 HVFDSB3A0400G231 HVFDSB3A0400G330 HVFDSB3A0400G331 50 140 8 HVFDSB3A0500G130 HVFDSB3A0500G131 HVFDSB3A0500G230 HVFDSB3A0500G231 HVFDSB3A0500G330 HVFDSB3A0500G331 60 170 8 HVFDSB3A0600G130 HVFDSB3A0600G131 HVFDSB3A0600G230 HVFDSB3A0600G231 HVFDSB3A0600G330 HVFDSB3A0600G331 75 205 8 HVFDSB3A0750G130 HVFDSB3A0750G131 HVFDSB3A0750G230 HVFDSB3A0750G231 HVFDSB3A0750G330 HVFDSB3A0750G331 5 62-2032—01 SMARTVFD THREE CONTACTOR AND THREE CONTACTOR AUTO-BYPASS ASSEMBLIES Table 1. SmartVFD 3 Contactor and 3 Contactor Auto-Bypass (Continued) NEMA1 Voltage HP Amps Frame 230 NEMA1 3 Contactor Bypass NEMA1 3 Contactor Auto Bypass NEMA12 NEMA12 3 Contactor Bypass NEMA3R NEMA12 3 Contactor NEMA3R 3 Contactor Auto Bypass Bypass NEMA3R Contactor Auto Bypass 0.75 3.7 4 HVFDSB3A0007G130 HVFDSB3A0007G131 HVFDSB3A0007G230 HVFDSB3A0007G231 HVFDSB3A0007G330 HVFDSB3A0007G331 1 4.8 4 HVFDSB3A0010G130 HVFDSB3A0010G131 HVFDSB3A0010G230 HVFDSB3A0010G231 HVFDSB3A0010G330 HVFDSB3A0010G331 1.5 6.6 4 HVFDSB3A0015G130 HVFDSB3A0015G131 HVFDSB3A0015G230 HVFDSB3A0015G231 HVFDSB3A0015G330 HVFDSB3A0015G331 2 8 4 HVFDSB3A0020G130 HVFDSB3A0020G131 HVFDSB3A0020G230 HVFDSB3A0020G231 HVFDSB3A0020G330 HVFDSB3A0020G331 3 11 4 HVFDSB3A0030G130 HVFDSB3A0030G131 HVFDSB3A0030G230 HVFDSB3A0030G231 HVFDSB3A0030G330 HVFDSB3A0030G331 5 18 5 HVFDSB3A0050G130 HVFDSB3A0050G131 HVFDSB3A0050G230 HVFDSB3A0050G231 HVFDSB3A0050G330 HVFDSB3A0050G331 7.5 24 5 HVFDSB3A0075G130 HVFDSB3A0075G131 HVFDSB3A0075G230 HVFDSB3A0075G231 HVFDSB3A0075G330 HVFDSB3A0075G331 10 31 5 HVFDSB3A0100G130 HVFDSB3A0100G131 HVFDSB3A0100G230 HVFDSB3A0100G231 HVFDSB3A0100G330 HVFDSB3A0100G331 15 48 6 HVFDSB3A0150G130 HVFDSB3A0150G131 HVFDSB3A0150G230 HVFDSB3A0150G231 HVFDSB3A0150G330 HVFDSB3A0150G331 20 62 6 HVFDSB3A0200G130 HVFDSB3A0200G131 HVFDSB3A0200G230 HVFDSB3A0200G231 HVFDSB3A0200G330 HVFDSB3A0200G331 25 75 6 HVFDSB3A0250G130 HVFDSB3A0250G131 HVFDSB3A0250G230 HVFDSB3A0250G231 HVFDSB3A0250G330 HVFDSB3A0250G331 30 88 7 HVFDSB3A0300G130 HVFDSB3A0300G131 HVFDSB3A0300G230 HVFDSB3A0300G231 HVFDSB3A0300G330 HVFDSB3A0300G331 40 105 7 HVFDSB3A0400G130 HVFDSB3A0400G131 HVFDSB3A0400G230 HVFDSB3A0400G231 HVFDSB3A0400G330 HVFDSB3A0400G331 50 140 8 HVFDSB3A0500G130 HVFDSB3A0500G131 HVFDSB3A0500G230 HVFDSB3A0500G231 HVFDSB3A0500G330 HVFDSB3A0500G331 60 170 8 HVFDSB3A0600G130 HVFDSB3A0600G131 HVFDSB3A0600G230 HVFDSB3A0600G231 HVFDSB3A0600G330 HVFDSB3A0600G331 75 205 8 HVFDSB3A0750G130 HVFDSB3A0750G131 HVFDSB3A0750G230 HVFDSB3A0750G231 HVFDSB3A0750G330 HVFDSB3A0750G331 62-2032—01 6 SMARTVFD THREE CONTACTOR AND THREE CONTACTOR AUTO-BYPASS ASSEMBLIES 7 62-2032—01 SMARTVFD THREE CONTACTOR AND THREE CONTACTOR AUTO-BYPASS ASSEMBLIES By using this Honeywell literature, you agree that Honeywell will have no liability for any damages arising out of your use or modification to, the literature. You will defend and indemnify Honeywell, its affiliates and subsidiaries, from and against any liability, cost, or damages, including attorneys’ fees, arising out of, or resulting from, any modification to the literature by you. Automation and Control Solutions Honeywell International Inc. 1985 Douglas Drive North Golden Valley, MN 55422 customer.honeywell.com ® U.S. Registered Trademark © 2012 Honeywell International Inc. 62-2032—01 M.S. 08-12 Printed in United States
