Brushless Motors BLE Series RS-485 Communication Type

BLE46AR200F

Gearhead / Motor / Control Circuit

การจำแนกประเภทผลิตภัณฑ์	ชื่อผลิตภัณฑ์	รายการราคา	วันที่จัดส่ง
Gearhead / Motor / Control Circuit	BLE46AR200F	THB 27,617	สินค้าที่จะยกเลิกการผลิต (30.1.2026 order deadline)

*กรุณาติดต่อเราหากต้องการสั่งซื้อสินค้านี้
*สินค้านี้จะหยุดผลิตในวันที่ 31.3.2026

รวม

Motor: None
Gearhead: Mounting Screws, Parallel Key, Safety Cover (with Screws)
Control Circuit: Connector for CN5, CN6 Connector, External Speed Potentiometer (with Signal Line)

ข้อมูลเฉพาะ

ลักษณะเฉพาะ

Speed - Torque Characteristics

ขนาด

Motor/Gearhead

Control Circuit

ดาวน์โหลดข้อมูล

ข้อมูลเฉพาะอื่น ๆ

Common Specifications

Analog Setting for Speed: Speed setting by the external speed potentiometer or external DC voltage.
Digital Setting for Rotation Speed: Setting method by OPX-2A, MEXE02, and RS-485 communication.

Item	Description
Speed Setting Methods	Analog Setting	Setting by External Speed Potentiometer (included): PAVR-20KZ（20kΩ, 1/4W） Setting by External DC Voltage: 0~10 VDC, 1 mA min
Speed Setting Methods	Digital Setting	Control Module (OPX-2A) Support Software (MEXE02) RS-485 Communication
Acceleration Time and Deceleration Time	Digital Setting	0.2~15 seconds When the Speed Setting is the Analog Setting: Time from stop to rated speed When the Speed Setting is the Digital Setting: set time from current speed to setting speed
Multi-Speed Setting Methods	Digital Setting	Set 1 method from the following. 16-Speed: Digital Setting 16-speed (OPX-2A, MEXE02 or RS-485 communication) 16-Speed: Digital Setting 15-speed (OPX-2A, MEXE02 or RS-485 communication) and analog setting 1-Speed (External Speed Potentiometer or External DC Voltage)
Input Signals	Photocoupler Input Input Resistance: 5.1 kΩ Operated by Internal Power Supply: 24VDC -15~+20% Connectable External Power Supply: 24VDC -15~+20% 100 mA min.
Input Signals	Input Signals can be assigned to input terminals IN0~IN6.
Output Signals	Open-Collector Output External Power Supply: 4.5~30 VDC Speed Output 5~40 mA Other Output 40 mA max.
Output Signals	Output signals can be assigned to output terminals OUT0 and OUT1.
Protective Functions	When the following protective functions are activated, the motor will coast to a stop, and the ALARM output will be turned off. Overload, sensor abnormality, sensor error at power-on, overvoltage, undervoltage, overspeed, overcurrent, EEPROM abnormality, regeneration resistor overheat, external stop, prevention of operation at power-on, network bus error, communication switch setting error, RS-485 communication error, RS-485 communication timeout, network converter error, main power supply off, main circuit output error
Maximum Extension Distance	Motor and Driver Distance: 20.4 m (when a connection cable is used)
Time Rating	Continuous

General Specifications

Item		Motor	Driver
Insulation Resistance		100 MΩ or more when a 500 VDC megger is applied between the windings and the case after continuous operation under normal ambient temperature and humidity.	After continuous operation at normal ambient temperature and humidity, the value measured with a 500 VDC megger between the power supply input and the protective earth terminal, and between the power supply input and the I/O terminal is min. 100 MΩ.
Dielectric Strength		No abnormality is observed when 1.5 kVAC at 50 Hz or 60 Hz applied between the coils and case for 1 minute after continuous operation under normal ambient temperature and humidity.	After continuous operation at normal temperature and humidity, no abnormality shall be found when 50 Hz, 1834 VAC is applied between the power supply terminal and protective earth terminal, and 50 Hz, 3 kVAC between the power supply terminal and input/output signal terminal for 1 minute.
Temperature Rise		After rated continuous operation at normal ambient temperature and humidity, the temperature rise of the coil measured value by the thermocouple method is max. 50 °C, and the measured value of the temperature rise of the case surface is max. 40 °C^*1.	After continuous operation at normal ambient temperature and humidity, the measurement value of the temperature rise of the heat sink is 50 °C max. using the thermocouple method.
Operating Environment	Ambient Temperature	0∼+50°C (Non-freezing)
	Ambient Humidity	85 % max. (Non-condensing)
	Altitude	Up to 1000 m above sea level
	Atmosphere	No corrosive gases or dust Radioactive materials, magnetic fields, Not for use in special environments such as vacuum.
	Vibration	Must not be subjected to continuous vibration or excessive shock Conforms to JIS C 60068-2-6, "Sine-wave vibration test method" Frequency Range: 10~55 Hz, Half Amplitude: 0.15 mm, Sweep Direction: 3 directions (X, Y, Z), Number of Sweeps: 20 times
Storage Condition^*2	Ambient Temperature	-25~+70°C (Non-freezing)
	Ambient Humidity	85 % max. (Non-condensing)
	Altitude	Up to 3000 m above sea level
Thermal Class		UL/CSA Standards: 105 (A), EN Standards: 120 (E)	−
Degree of Protection		IP65 (Excluding the installation surface of the round shaft type and connectors)	IP20

*1: Attach round shaft types to a heat sink (Material: aluminum) of one of the following sizes to maintain a motor case surface temperature of 90 °C max.
30 W Type: 115 × 115 mm (135 × 135 mm) 5 mm thickness Figures in parentheses are for the electromagnetic brake type.
60 W Type: 135x135 mm, 5 mm thickness
120 W Type: 165x165 mm, 5 mm thickness
*2: The value for storage condition applies to short periods such as the period during transport.

Note

Do not measure insulation resistance or perform a dielectric strength test the motor and driver are connected.

RS-485 Communication Specifications

Protocol	Modbus Protocol (Modbus RTU mode)
Electrical Characteristics	EIA-485 Complaint Use twisted-pair cables (TIA/EIA-568B CAT5e or better recommended). The max. total extension length is 50 m.
Transmission/Reception Mode	Half duplex
Transmission Rate	9600bps/19200bps/38400bps/57600bps/115200bps
Physical Layer	Asynchronous Mode (Data: 8 bit, Stop Bit: 1 bit/2 bit, Parity: none/even/odd)
Connection Type	Up to 31 units can be connected to a single programmable controller (master device).

Torque Limiting Function

By using OPX-2A, MEXE02, or RS-485 communication, you can set a limit on the output torque of the motor.

Item

Specifications

Torque Limiting Setting Methods

Set 1 method from the following.

Digital independent setting: Torque limiting values can be set separately for 16 data sets.
External Analog Batch Setting: Optional setting by external speed potentiometer PAVR-20KZ (20kΩ, 1/4W), or by external DC voltage. (0~5 VDC)

The same torque limiting value applies to all operation data.

Torque Limiting Setting Range

Assuming that the rated torque of the motor is 100 %,
torque limiting values can be set in the following ranges (Initial value 200%).

Digital Setting: 0~200% (Set in 1% increments)
External Analog Batch Setting: Set from 0~200 % with an External Speed Potentiometer PAVR-20KZ (20kΩ, 1/4W),
or with external DC voltage (0~10 VDC)

Note

An error up to a max. of approximately ±20 % (at rated torque and rated speed) may occur between the setting value and generated torque due to the setting speed, power supply voltage and motor cable extension length.

Permissible Radial Load and Permissible Axial Load

Combination type with a parallel shaft gearhead

Product Name	Gear Ratio		Permissible Radial Load		Permissible Axial Load N
Product Name	Gear Ratio		10 mm From the End of the Output Shaft N	20 mm From the End of the Output Shaft N	Permissible Axial Load N
BLE23■R□S◇	5	At 100~3000 r/min	100	150	40
	5	At 4000 r/min	90	110
	10, 15, 20	At 100~3000 r/min	150	200
	10, 15, 20	At 4000 r/min	130	170
	30, 50, 100, 200	At 100~3000 r/min	200	300
	30, 50, 100, 200	At 4000 r/min	180	230
BLE46■R□S◇	5	At 100~3000 r/min	200	250	100
	5	At 4000 r/min	180	220
	10, 15, 20	At 100~3000 r/min	300	350
	10, 15, 20	At 4000 r/min	270	330
	30, 50, 100, 200	At 100~3000 r/min	450	550
	30, 50, 100, 200	At 4000 r/min	420	500
BLE512■R□S◇	5	At 100~3000 r/min	300	400	150
	5	At 4000 r/min	230	300
	10, 15, 20	At 100~3000 r/min	400	500
	10, 15, 20	At 4000 r/min	370	430
	30, 50, 100, 200	At 100~3000 r/min	500	650
	30, 50, 100, 200	At 4000 r/min	450	550

Combination type with a hollow shaft flat gearhead

Product Name	Gear Ratio		Permissible Radial Load		Permissible Axial Load N
Product Name	Gear Ratio		10 mm From the Gearhead Mounting Surface N	20 mm From the Gearhead Mounting Surface N	Permissible Axial Load N
BLE23■R□F◇	5, 10	At 100~3000 r/min	450	370	200
	5, 10	At 4000 r/min	410	330
	15, 20, 30, 50, 100, 200	At 100~3000 r/min	500	400
	15, 20, 30, 50, 100, 200	At 4000 r/min	460	370
BLE46■R□F◇	5, 10	At 100~3000 r/min	800	660	400
	5, 10	At 4000 r/min	730	600
	15, 20, 30, 50, 100, 200	At 100~3000 r/min	1200	1000
	15, 20, 30, 50, 100, 200	At 4000 r/min	1100	910
BLE512■R□F◇	5, 10	At 100~3000 r/min	900	770	500
	5, 10	At 4000 r/min	820	700
	15, 20	At 100~3000 r/min	1300	1110
	15, 20	At 4000 r/min	1200	1020
	30, 50, 100, 200	At 100~3000 r/min	1500	1280
	30, 50, 100, 200	At 4000 r/min	1400	1200

Round Shaft Type

Product Name	Permissible Radial Load		Permissible Axial Load
Product Name	10 mm From the End of the Output Shaft N	20 mm From the End of the Output Shaft N	Permissible Axial Load
BLE23■RA◇	80	100	Half of the motor mass or less
BLE46■RA◇	110	130
BLE512■RA◇	150	170

Permissible Radial Load Calculation

The formula for calculating the permissible radial load varies depending on the mechanism.

When One Side of the Load Shaft is Not Supported by the Bearing Unit

The radial load is the most difficult mechanism. A Stepped Type Load Shaft is recommended.

F₀ [N]:

Permissible Radial Load at the Flange-Mounting Surface Position

LP [mm]:

Distance from Flange-Mounting Surface to Radial Load Point

B [mm]:

Distance from Flange-Mounting Surface to Bearing Unit

Product Name	Permissible Radial Load W [N]
GFS2G□FR	\(\begin{align} \mathrm{W} [\mathrm{N}] = \frac{36}{36 + \mathrm{Lp}} \times \mathrm{F}_0 [\mathrm{N}] \end{align}\)
GFS4G□FR	\(\begin{align} \mathrm{W} [\mathrm{N}] = \frac{40}{40 + \mathrm{Lp}} \times \mathrm{F}_0 [\mathrm{N}] \end{align}\)
GFS5G□FR	\(\begin{align} \mathrm{W} [\mathrm{N}] = \frac{50}{50 + \mathrm{Lp}} \times \mathrm{F}_0 [\mathrm{N}] \end{align}\)
GFS6G□FR	\(\begin{align} \mathrm{W} [\mathrm{N}] = \frac{60}{60 + \mathrm{Lp}} \times \mathrm{F}_0 [\mathrm{N}] \end{align}\)

When One Side of the Load Shaft is Supported by the Bearing Unit

Product Name	Permissible Radial Load W [N]
GFS2G□FR GFS4G□FR GFS5G□FR GFS6G□FR	\(\begin{align} \mathrm{W} [\mathrm{N}] = \frac{\mathrm{B}}{\mathrm{B} - \mathrm{Lp}} \times \mathrm{F}_0 [\mathrm{N}] \end{align}\)

Product Name	Speed	Gear Ratio	F₀ [N]
GFS2G□FR	At 2~3000 r/min	5, 10	570
	At 2~3000 r/min	15~200	630
	At 4000 r/min	5, 10	520
	At 4000 r/min	15~200	580
GFS4G□FR	At 2~3000 r/min	5, 10	1000
	At 2~3000 r/min	15~200	1500
	At 4000 r/min	5, 10	910
	At 4000 r/min	15~200	1370
GFS5G□FR	At 2~3000 r/min	5, 10	1080
		15, 20	1550
		30~200	1800
	At 4000 r/min	5, 10	980
		15, 20	1430
		30~200	1680
GFS6G□FR	At 2~3000 r/min	5, 10	1430
		15, 20	1960
		30~100	2380
	At 4000 r/min	5, 10	1320
		15, 20	1810
		30~100	2210

มาตรฐาน

Regulations and Standards Materials

Documents about compliance with regulations and standards can be downloaded from the "Data Download" tab on the product details page.
(The types of files available for download vary by product.)

Explanations of the Global Laws, Regulations and Standards can be found here.

Information about our compliance with safety standards for each of our product models can be found here.

Hazardous Substances

The product does not contain any substances (10 substances) exceeding the regulation values of the RoHS Directive (2011/65/EU, 2015/863/EU).

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System Configuration

สินค้าที่เกี่ยวข้อง

Network Converter

Products	Features
NETC02-CC	Features	[CC-Link Ver. 2 Compatible] This is a converter from CC-Link communication protocol to Oriental Motor's original RS-485 communication protocol. By supporting CC-Link Ver.2, you can simplify the ladder program and shorten the communication time for data sending and receiving.
Products	NETC01-CC	Features	[CC-Link Ver.1.1 Compatible] This is a converter from CC-Link communication protocol to Oriental Motor's original RS-485 communication protocol. By connecting a network converter, you can complete the wiring process with a single dedicated cable approved for the CC-Link communication protocol. Additionally, for connection to RS-485 communication-compatible products, you can complete the wiring process with a single included cable.
Products	NETC01-M2	Features	[MECHATROLINK-II Compatible] This is a converter from MECHATROLINK-II communication protocol to Oriental Motor's original RS-485 communication protocol. By connecting a network converter, the wiring process can be completed with a single dedicated cable approved for the MECHATROLINK-II communication protocol. Additionally, for connection to RS-485 communication-compatible products, you can complete the wiring process with a single included cable.
Products	NETC01-M3	Features	[MECHATROLINK-III Compatible] This is a converter from MECHATROLINK-III communication protocol to Oriental Motor's original RS-485 communication protocol. By connecting a network converter, the wiring process can be completed with a single dedicated cable approved for the MECHATROLINK-III communication protocol. Additionally, for connection to RS-485 communication-compatible products, you can complete the wiring process with a single included cable.
Products	NETC01-ECT	Features	[EtherCAT Compatible] This is a converter from EtherCAT communication protocol to Oriental Motor's original RS-485 communication protocol. By connecting a network converter, Oriental Motor's FLEX compatible products can be controlled in an EtherCAT communication environment.