E3 Series - E3 Series – Single Phase VFD
- Brand: Bardac Devices
- Product Code: E3 Series
Description:
E3 Series - Single Phase VFD
For Shaded Pole (SP) & Permanent Split Capacitor (PSC) motors used in direct drive, variable torque, fan and pump type applications only.
IP20 or NEMA 4X (IP66)
Basic Control or Full Featured AC Drive
Description:
E3 Series - Single Phase VFD
For Shaded Pole (SP) & Permanent Split Capacitor (PSC) motors used in direct drive, variable torque, fan and pump type applications only.
IP20 or NEMA 4X (IP66)
Basic Control or Full Featured AC Drive
Features
- The innovative E3 Single Phase motor controller uses a unique control algorithm that ensures reliable starting and control.
- Energy saving
- Macros for fan and pump applications
- Built-in PI control
- Bluetooth connectivity
- High frequency switching for quiet running in:
- Commercial and residential HVAC
- Fume extraction
- Laboratories
- Quiet locations
The Basics:
- Basic IP20 or NEMA4X (indoor rated) versions
- Basic or full featured systems drive
- Basic or peer-to-peer networking over Ethernet
- Compact packaging
- Simple mechanical and electrical installation
- 50°C ambient rating
- 150% rating for 60 seconds, 175% for 2 seconds
- Simple basic set up
- Integral brake transistor (size 2, 100% rated)
- ModbusRTU serial port
- Remote keypad and display option
- OPTISTICK plug-in for easy parameter up/down load
- Standards: UL, C-UL, CE, C-Tick
Dimensions
Size 1 2 Protection IP20 NEMA 4X (IP66) IP20 NEMA 4X (IP66) Height (ins) 6.8" 9.1" 8.7" 10.1" Height (mm) 173 232 221 257 Width (ins) 3.3" 6.4" 4.4" 7.4" Width (mm) 83 161 110 188 Depth (ins) 4.9" 7.1" 5.9" 7.4" Depth (mm) 123 179 150 188 Weight (lbs) 2.2 6.8 3.8 9 Weight (kg) 1 3.1 1.7 4.1
Specifications
Output
Frequency | 0 to 120Hz |
Supply Options
Frequency | 48 – 62 Hz, >0.98PF, in rush current < rated current | ||
Voltage/Phases | 100 – 132 volts max, single phase (0.5 – 1.0HP) | 180 – 264 volts max, 1-phase (0.5 – 1.5HP) | 180 – 264 volts max, 3-phase (0.5 – 1.5HP, special order) |
Environment
Temperature | IP20, operating, -10 to 50°C max, storage, -40 to 60°C | IP66, NEMA 4X, operating -10 to 40°C max, storage, -40 to 60°C | |
Altitude | 0-2000M, derate 1% per 100M above 1000M | ||
Humidity | Up to 95%, non condensing | ||
Ingress Protection | Basic IP20 | Optional IP65 (NEMA4X) indoor rated (can be used | outdoors if protected from direct or reflected sunlight) |
Control
Mode | V/F voltage vector, with energy optimizer |
PWM Hz | 4 to 32KHz (effective) |
Skip Freq | Single point, user adjustable |
Boost | Automatic boost phase operation |
Stop modes | Coast / ramp / DC brake |
Setpoint ref | 0-10VDC, 4-20mA, 0-20mA, Keypad, Modbus |
Presets | 8 preset speeds |
PI control | Direct & analog input trim |
Accel/Decel | 0 – 600 secs + Ramp stop decel 0 – 600 secs |
Configurable i/o
Input 1 | Programmable digital input |
Input/Output 2 | Selectable digital input / output |
Input 3 | Configurable analog or digital input |
Input 4 | Configurable analog or digital input |
Output 1 | Configurable analog or digital output |
Relay 1 | Normally open relay contact 30VDC 5A, 250VAC 6A |
Protection
Drive trip | Over/under volts, over current, external trip |
Motor | Overload, over temp, short circuit, ground fault |
Trip memory | Last 4 trips stored |
Accessories
2rout_user_guide_v2pt01.pdf
Bardac_AC_Drive_Brake_Resistors_Installation_Guide_82-BRAKE-IN_v3.00.pdf
Bardac_P2_Encod_Option_User_Guide_v1.1.pdf
Bardac_Specification_For_Variable_Speed_Drives_v2.11.pdf
Bardac_T2-CASCD-IN_Manual_v1.01.pdf
T2-THMKT_Mounting-Instructions.pdf
hvac_option_user_guide_v1pt00.pdf
logip_option_user_guide_v1pt01.pdf
optidrive_size6_choke_user_guide_v2pt00.pdf
optipad_user_guide_v1pt00.pdf
optiport2_user_guide_v1pt00.pdf
optistick_user_guide_v2pt00.pdf
Advanced User Guides
P2_Advanced_User_Guide_Issue_06.pdf
optidrive_plus_advanced_user_guide_v3pt05.pdf
optidrive_plus_vms_washing_machine_v1pt00.pdf
Drawings
Bardac_E3_IP20_Size1_OutlineDrawings.zip
Bardac_E3_IP20_Size1_STEP.zip
Bardac_E3_IP20_Size2_OutlineDrawings.zip
Bardac_E3_IP20_Size2_STEP.zip
Bardac_E3_IP20_Size3_OutlineDrawings.zip
Bardac_E3_IP20_Size3_STEP.zip
Bardac_E3_IP20_Size4_OutlineDrawings.zip
Bardac_E3_IP20_Size4_STEP.zip
Bardac_E3_IP20_Size5_OutlineDrawings.zip
Bardac_E3_IP20_Size5_STEP.zip
Bardac_E3_IP66_Size1_OutlineDrawings.zip
Bardac_E3_IP66_Size1_STEP.zip
Bardac_E3_IP66_Size2_OutlineDrawings.zip
Bardac_E3_IP66_Size2_STEP.zip
Bardac_E3_IP66_Size3_OutlineDrawings.zip
Bardac_E3_IP66_Size3_STEP.zip
Bardac_E3_Series_AllDrawings_AllSTEP.zip
Bardac_P2_V3_IP20_Size2_OutlineDrawings.zip
Bardac_P2_V3_IP20_Size2_STEP.zip
Bardac_P2_V3_IP20_Size3_OutlineDrawings.zip
Bardac_P2_V3_IP20_Size3_STEP.zip
Bardac_P2_V3_IP20_Size4_OutlineDrawings.zip
Bardac_P2_V3_IP20_Size4_STEP.zip
Bardac_P2_V3_IP20_Size5_OutlineDrawings.zip
Bardac_P2_V3_IP20_Size5_STEP.zip
Bardac_P2_V3_IP20_Size8_OutlineDrawings.zip
Bardac_P2_V3_IP20_Size8_STEP.zip
Bardac_P2_V3_IP55_Size4_OutlineDrawings.zip
Bardac_P2_V3_IP55_Size4_STEP.zip
Bardac_P2_V3_IP55_Size5_OutlineDrawings.zip
Bardac_P2_V3_IP55_Size5_STEP.zip
Bardac_P2_V3_IP55_Size6_OutlineDrawings.zip
Bardac_P2_V3_IP55_Size6_STEP.zip
Bardac_P2_V3_IP55_Size7_OutlineDrawings.zip
Bardac_P2_V3_IP55_Size7_STEP.zip
Bardac_P2_V3_IP66_Size2_OutlineDrawings.zip
Bardac_P2_V3_IP66_Size2_STEP.zip
Bardac_P2_V3_IP66_Size3_OutlineDrawings.zip
Bardac_P2_V3_IP66_Size3_STEP.zip
Bardac_P2_V3_Series_AllDrawings_AllSTEP.zip
JL Series
jl-series_product_manual_v5pt15k.pdf
E2 Series Single Phase
optidrive_e2_1p_user_guide_v3pt10.pdf
AN-ODE-2-038_modbus_RTU_control_and_register_mapping.pdf
AN-ODE-2-055_commissioning_single-phase_output_drives.pdf
AN-ODE-2-060_use_of_drive_on_generator_supplies.pdf
AN-ODE-2-070_mounting_drives_in_control_panels.pdf
E2 Series Volts Per Hertz
optidrive_e2_ip55_nema12_user_guide_v1pt03.pdf
optidrive_e2_user_guide_v3pt30.pdf
AN-ODE-2-001_setting_the_motor_nameplate_details.pdf
AN-ODE-2-002_setting_up_acceleration_and_deceleration_ramp_rates.pdf
AN-ODE-2-003_setting_the_required_stopping_mode.pdf
AN-ODE-2-004_locking_parameters_to_prevent_changes.pdf
AN-ODE-2-005_displaying_motor_speed_in_RPM.pdf
AN-ODE-2-006_configuring_voltage_and_current_reference_inputs.pdf
AN-ODE-2-007_using_the_skip_frequency_function.pdf
AN-ODE-2-008_selecting_the_start-restart_mode.pdf
AN-ODE-2-009_programming_the_drive_user_relay.pdf
AN-ODE-2-010_using_the_2ROUT_option.pdf
AN-ODE-2-011_using_the_display_scaling_function.pdf
AN-ODE-2-012_using_standby_mode.pdf
AN-ODE-2-014_hand_auto_operation.pdf
AN-ODE-2-015_modifying_the_V-F_output_characteristic.pdf
AN-ODE-2-017_using_the_brake_circuit.pdf
AN-ODE-2-021_setting_up_preset_speeds.pdf
AN-ODE-2-024_energy_optimisation_function.pdf
AN-ODE-2-025_remote_push-button_speed_control.pdf
AN-ODE-2-026_remote_keypad_control_with_autorun.pdf
AN-ODE-2-030_using_the_2nd_deceleration_ramp_time.pdf
AN-ODE-2-032_PI_closed_loop_feedback_control_applications.pdf
AN-ODE-2-038_modbus_RTU_control_and_register_mapping.pdf
AN-ODE-2-045_using_multiple_motors_in_parallel.pdf
AN-ODE-2-057_switching_frequency_derating_information.pdf
AN-ODE-2-060_use_of_drive_on_generator_supplies.pdf
AN-ODE-2-061_87Hz(104Hz)_operation_of_standard_induction_motors.pdf
AN-ODE-2-062_use_of_fan_components_in_drive_construction.pdf
AN-ODE-2-070_mounting_drives_in_control_panels.pdf
E3 Series Open Loop Vector
Bardac_E3_Brochure_v2.14_HighRes.pdf
Bardac_E3_Brochure_v2.14_LowRes.pdf
Bardac_E3_NEMA_4X|IP66_Outdoor_Manual_v1.07.pdf
Bardac_E3_Series_Manual_v2.00.pdf
Bardac_E3_Single_Phase_Manual_v2.00.pdf
P2 Series Closed Loop Vector
Bardac_P2_Series_Manual_v3.01.pdf
Bardac_P2_Solar_Pump_Manual_v1.02.pdf
AN-ODP-2-002_setting_up_acceleration_and_deceleration_ramp_times.pdf
AN-ODP-2-003_selecting_the_required_stopping_mode.pdf
AN-ODP-2-004_locking_parameters_to_prevent_changes.pdf
AN-ODP-2-005_displaying_motor_speed_in_RPM.pdf
AN-ODP-2-006_configuring_voltage_and_current_reference_inputs.pdf
AN-ODP-2-007_using_the_skip_frequency_function.pdf
AN-ODP-2-008_selecting_the_start-restart_mode.pdf
AN-ODP-2-009_programming_the_drive_user_relays.pdf
AN-ODP-2-010_additional_relay_output_option_modules.pdf
AN-ODP-2-011_using_the_display_scaling_function.pdf
AN-ODP-2-012_using_standby_mode.pdf
AN-ODP-2-015_modifying_the_constant_V-F_output_characteristic.pdf
AN-ODP-2-021_setting_up_preset_speeds.pdf
AN-ODP-2-024_energy_optimisation_function.pdf
AN-ODP-2-025_remote_push-button_speed_control.pdf
AN-ODP-2-045_using_multiple_motors_in_parallel.pdf
AN-ODP-2-050_permanent_magnet_motor_control.pdf
AN-ODP-2-058_encoder-less_vector_control_for_3-phase_induction_motors.pdf
AN-ODP-2-060_drives_on_generator_supplies.pdf
AN-ODP-2-070_mounting_drives_in_control_panels.pdf
Bardac_AN-P2-001_Setting-Motor-Nameplate-Details.pdf
Bardac_AN-P2-027_Master-Slave-Network-Operation.pdf
Bardac_AN-P2-034_Hoist-Applications_v1.01.pdf
Bardac_AN-P2-038_Modbus_RTU_Control_and_Register_Map.pdf
V2 Series HVAC
optidrive_v2_bacnet_user_guide_v1pt00.pdf
optidrive_v2_user_guide_v2pt00.pdf
AN-ODV-2-001_setting_the_motor_nameplate_data.pdf
AN-ODV-2-002_setting_up_acceleration_and_deceleration_ramp_rates.pdf
AN-ODV-2-003_selecting_the_required_stopping_mode.pdf
AN-ODV-2-004_locking_parameter_to_prevent_changes.pdf
AN-ODV-2-005_displaying_motor_speed_in_RPM.pdf
AN-ODV-2-006_configuring_voltage_and_current_reference_inputs.pdf
AN-ODV-2-007_using_the_skip_frequency_function.pdf
AN-ODV-2-008_selecting_the_start-restart_mode.pdf
AN-ODV-2-009_programming_the_drive_output_relays.pdf
AN-ODV-2-010_additional_relay_output_modules.pdf
AN-ODV-2-011_using_the_display_scaling_function.pdf
AN-ODV-2-012_using_standby_mode.pdf
AN-ODV-2-015_modifying_the_VF_characteristic.pdf
AN-ODV-2-021_setting_up_preset_speeds.pdf
AN-ODV-2-024_energy_optimisation_function.pdf
AN-ODV-2-025_remote_push-button_speed_control.pdf
AN-ODV-2-027_master-slave_network_operation.pdf
AN-ODV-2-038_modbus_RTU_control_and_register_mapping.pdf
AN-ODV-2-045_using_multiple_motors_in_parallel.pdf
AN-ODV-2-051_using_the_external_extended_IO_module.pdf
AN-ODV-2-060_use_of_drives_on_generator_supplies.pdf
AN-ODV-2-062_use_of_fan_components_in_drive_construction.pdf
AN-ODV-2-068_using_optiflow_multi_pump_cascade_control.pdf
AN-ODV-2-073_multi_pump_cascade_control.pdf
AN-ODV-2-074_using_the_maintenance_timer.pdf
AN-ODV-2-075_load_torque_monitoring_function.pdf
AN-ODV-2-076_using_the_pump_clean_function.pdf
AN-ODV-2-077_using_the_pump_stir_function.pdf
AN-ODV-2-078_bypass_operation.pdf
AN-ODV-2-080_motor_pre-heating_function.pdf
V3 Series Eco
Bardac V3 Eco User Guide Rev 2.02g.pdf
Bardac_V3_ECO_Pump_Brochure_v2.13_HighRes.pdf
Bardac_V3_ECO_Pump_Brochure_v2.13_LowRes.pdf
AN-ODV-3-001_setting_the_motor_nameplate_data.pdf
AN-ODV-3-002_setting_up_acceleration_and_deceleration_ramp_rates.pdf
AN-ODV-3-003_selecting_the_required_stopping_mode.pdf
AN-ODV-3-004_locking_parameters_to_prevent_changes.pdf
AN-ODV-3-005_choosing_Hz_or_RPM.pdf
AN-ODV-3-006_configuring_voltage_and_current_reference_inputs.pdf
AN-ODV-3-007_using_the_skip_frequency_function.pdf
AN-ODV-3-008_selecting_the_start-restart_mode.pdf
AN-ODV-3-009_programming_the_drive_output_relays.pdf
AN-ODV-3-010_additional_relay_output_modules.pdf
AN-ODV-3-011_using_the_display_scaling_function.pdf
AN-ODV-3-012_using_standby_mode.pdf
AN-ODV-3-015_constant_or_variable_torque_operation.pdf
AN-ODV-3-038_modbus_RTU_control_and_register_mapping.pdf
AN-ODV-3-078_bypass_operation.pdf