Some standard content:
Un621.3:3
National Standard of the People's Republic of China
GR7T 2900.26--94
Electratechnical terminologyControl molors and fecdhack 1994-04-12 release
National Technical Supervision Committee
1994-12-01 implementation
Product content and scope of application
Cited standards
Technical product name
3.1 General terms
3.2 Product name
3.3 Electronic control device for motor
3.4 General category Technical suitability
4.1 Winding
4.2 Mechanical components, magnetic components
4-3 Appendix
5 Characteristics and parameters
5.1 General characteristics and parameters | |tt||Suitability and parameters of self-contained machines
.TPh.TT
5. Characteristics and parameters of transformers and resolvers...5.4 Characteristics and parameters of inductive phase shifters
3.5 Characteristics and parameters of auxiliary speed generators
5.6 Characteristics and parameters of motors and short-circuit motors..5.7 Characteristics and parameters of step-down motors
6 Tests
6.2 Test conditions
6.2 Test items
English language
English rate
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National Standard of the People's Republic of China
Electrical Terminology
Control Motor
Electrotechnicar termizolagyCantrat innlors alid fredhack romponeats1 Main Content and Scope of Application
This standard defines the special terms for control motors. GB/T 290.26--94
Generation 9D2-3
This standard is applicable to the formulation of standards, preparation of technical documents, writing and translation of professional documents, materials and books. The terminology specified in this standard is B2901 Basic terms and G codes for electrical engineering 290.25 Electrical engineering terminology for rotating motors. For terms not specified in this standard, they may be specified in relevant standards. 2 References
GB/T2900.1 Basic terms
GB/T290025 Electrical engineering terminology for rotating motors
3 General terms and product names
3.1 General terms
3.f.1 Control motors The general standard for various motors used as execution elements, detection elements, reverse elements, conversion elements, and amplification elements in motion control systems, as well as various machines used as decoding elements in the control system. 3.1.2 Tea making motors generally refer to control motors with a continuous rated power of 750W and below when converted to 100+/min, or with an outer diameter not greater than 13Dmm or an axial center distance not greater than vomm.
3.1.3 Temperature control system rmolion zuritrolaystem precisely controls the position and quality, such as speed, force or rotation. 3.? Product Name
3.2.1 Synchro
A kind of unit shift information transmission, reception and conversion control machine, is the general name of the full angle transmitter, full angle receiver, full angle differential transmitter, full angle differential receiver and automatic angle control transformer. 3.2.2 Synchro system
A system including one or more synchro systems, which works according to the angular position signal and transmits these signals through the wire.
3.2.3 Synchro system When the rotating shafts of multiple synchro machines move diagonally, a torque will be generated, and the synchro system tries to minimize the relative angular displacement.
3.2.4 Control synchro system
control synchro syxleni
Guohao Technical Supervision Road 1994·0412 approved T994-12-01 implementation
B/T2903.26-94
When multiple self-regulating machine shaft points are displaced diagonally, corresponding electrical signals will be generated, which will be finally contained in the motor through the amplifier to drive the load and reduce the relative displacement to the minimum angle of the engine system. 3.2-5 Short angle self-adjusting machine urNynchra
Can be used for the self-adjusting of the power type angle adjustment machine system 3.2.6 Controllsynchro
Can be used for the self-adjusting of the power type angle adjustment machine 3.2.7 Self-adjusting transmitter symehrotrengmitter will convert the required signal into a three-wire signal output corresponding to the original self-adjusting machine, 3.2.BH differential transmission Kaiyn:hudifferenti1trar:smitte receives the self-transmitting tube and outputs the electrical signal of the difference between the angular displacement of the transmitter.
3.2.9 Printing symho 3.2.D Automatic Regulator Receives the electrical signal of the automatic rectifier (or differential rectifier) and generates an angular encoder that reduces the difference between the angular position of the rectifier (or differential rectifier) and the displacement of the rectifier (or differential rectifier). 3.2.D Automatic Regulator Receives the electrical signal of the automatic rectifier (or differential rectifier) and converts it into an angular encoder that is proportional to the sum of the angular positions of the two rectifiers.
3.2.11 Automatic Regulator Receives the electrical signal of the automatic rectifier (or differential rectifier) and generates an angular encoder that is proportional to the angular position of the rectifier (or differential rectifier) and the displacement of the rectifier (or differential rectifier). 3.2.12 Automatic Regulator Receives the electrical signal of the automatic rectifier (or differential rectifier) and converts it into an angular encoder that is proportional to the angular position of the rectifier (or differential rectifier) and the displacement of the rectifier (or differential rectifier). 3.2.13 A dual-purpose synchro that also serves as a torque receiver and a small transmitter. 3.2.74 A brushless synchro that has a synchro and a slip ring structure that allows continuous rotation. Multipolar synchro Multipolar synchro Multipolar synchro
A synchro with a large effective torque.
Dual-purpose synchro at-seitenchr || tt||single and double poles are designed for combination. Multi-resynchro3-2.17
a large number of "resynchro" electric motor. 3-2.18 electrification reoverresolver is an AC motor that works on the principle of variable voltage transformer. Its reversal power and rotor short circuit function are related.
a family of sine-m-sine resolvers that output the relationship between the sine and cosine of the positive and negative rotation angles. Transformer 3.2.20
Testing the proportional rezolver of the rotary transformer is a proportional element in the system for adjusting the electric current. The structure adds a sine and cosine rezolver with a device for adjusting and locking the position of the rezolver.
I have a linear rezolver with a voltage regulator. Ver3.2.27
The rezolver has a voltage regulator with a voltage regulator and a voltage regulator. Special function rezolver 3.2. 22
6B/T2900.26--94
Within a certain range of rotation, the secondary output power and the rotor lack of a certain specific function (except for the residual function and the non-function of the relationship between the sparse conversion instrument.
3.2.23 Single continuous group load three travel multi-pressure %
in:luc..cn plennanmetu.
The original and the original only have: set of party maintenance of the rotary transformer 3.2.24 energy transmission machine reao.verrar.amitrer converts the angular displacement into the corresponding four-loaded estimated signal output by the positive and negative art transformer, 3.2.25 The real-time differential differential transmitter receives the central signal of the transmitter and determines the electric signal corresponding to the ring (or difference) of the angular displacement of the transmitter and the body.
3.2.26 The egoerstoe
receives the electric signal from the energy transformer (or the energy transformer) and outputs a positive and negative chord transformer proportional to the difference between the initial angular displacement of the inverter (or the differential transmitter). 3.2.2/ The brushless converter is equipped with a brush slip ring structure to fill the rotation of the converter. 3-2-28 The multipolar converter is an energy transformer with a polarity greater than 1.
3.2.29 A dual-speed rotary transformer is a combination of single and multiple pairs of transformers. 3.2.30 A magnetic transformer is a multi-pole rotary transformer made by rotating the stator and rotor according to the effect of the stator and rotor. 3.2.31 A transformer is a transformer that converts three-wire and four-wire signals into an AC motor similar to a self-synchronous transformer.
3.7.32 A phase shifter is a phase shifter that generates AC voltage and outputs a constant voltage. The phase difference between the two phases is a function of the current.
32.33 Single-phase induction phase shifter Single-phase induction phase shifter
3.2.34 Two-phase induction phase shifter (wo-phase induction phase shifter) Two-phase orthogonal voltage induction phase shifter 3. 2. 35
mmihiplur uluetin \huse shiftcr multi-pole multi-right exposure
Super effective scale 1 Huiyingge card device,
3.2.36 Dual-channel induction phase shifter dzal-speeriinduation phase shifter A combination of single-pole and multi-pole induction phase shifters. 3-2.37
Induction step irductosvuFprinted cirimuli·auleelxinealsolvr real ten-pole transformer 1 is used as a displacement detection element, and its fixed part and moving part have a plane group with printed circuit graphics.
3.2.38 Rotary induction synchronizer reraryadetagn detects angular displacement.
3. 2. 391
Linear ball stepper Jinearandurny
Induction synchronizer for linear displacement.
3.2.40 Shaft angle encoder shaltcncoder converts angular displacement and speed into digital or electrical pulse signals. 3
CB/T290.26—94
3-2.41 Cultivated encoder incrcmenelcncode hoop serial rubber impulse signal special each impulse is a standard set of uniform axis 3.2.42 A contact encoder is an encoder that encodes by switching between two electrical points on a fixed axis. 3.2.43 An encoder that encodes by switching between two electrical points on a fixed axis. 3.2.44 An encoder that works on the principle of photoelectric effect. 3.2.45 A magnetic encoder is an encoder that encodes by switching between two electrical points on a fixed axis. encode
Encoder that encodes the magnetic signal recorded by the rotor, and encoder that encodes the electrical changes of the fixed state. Rotary variable differential ans Inrmer (RV3.2.47
Displacement detection element based on the principle of electromagnetic response. Within the range of space, its output value is proportional to the angle of the rotor from the electrical zero position.
3-2.48 Linear differential constant voltage lineur nable difier cntial transfor Tcr (iV) Linear displacement control and measurement element based on the principle of electrical sensitivity. Within a certain range, its amplitude of the voltage is proportional to the linear displacement of the movable core.
3.2.49 Tachogenerator selection: A detection element that converts the speed into an electrical signal. The output signal (current or rate) is proportional to the speed. Some tachometer output signals can also reflect the direction of rotation.
3.2.50 Tachogenerator selection: If the tachogenerator is used, the output current is proportional to the speed, and the polarity is consistent with the direction. 3.2.51 Permanent magnet DC tachogenerator with a working speed range as low as tens or hundreds of revolutions per minute, or a permanent magnet DC tachogenerator with a higher output slope,
3.2.52 Uncontrolled DC tachogenerator is a tachogenerator with an electric commutator, a motor and an electronic device combined, the output DC current value is proportional to the speed, and the polarity is related to the direction of rotation.
3.2.53 AC tachometer generator luru.tingurrelchgenerato is a tachometer generator using an AC motor, and the output AC voltage is proportional to the speed. 3.2.54 Step tachometer generator 5yuchronau6tachnkereralo is a tachometer generator using a synchronous motor structure, and the output AC voltage is approximately constant and the frequency is proportional to the speed. 3.2.55 Permanent synchronous tachometer generator permarenrmsgnecsymechronouscachogenerator is a tachometer generator with a water-excited rotor. 32.56 Inductor synchronous control inductursynchronoustachogeneraton is a synchronous tachometer generator that works according to the variable relay effect between the fixed rotors to generate the induced potential. 32.57 Asynchronous tachogenerator Asynchronous tachogenerator with an output AC voltage frequency that is the same as the excitation frequency and whose amplitude is proportional to the rotor speed. 3.2.58 Asynchronous tachogenerator with a cup-shaped guide made of conductive metal material and a rotor layer. 3.2.59 Asynchronous tachogenerator with a high theoretical acceleration value and low zero-connected output voltage. CB/r2900.26--94
3.2. Asynchronous tachogenerator with a small temperature difference and short heating time. 3-2.61
ratio type speed generator grop core tiana!tachngnzaor speed sensitive output power is proportional to the speed of the output power of the current break according to the ratio of the business, the rotational inertia of the whole gradually fuel function this output power stop line high quality external step-by-step measurement generator.
3.262 measurement of illegal motor frequencyachngenernr self-measurement of the signal rate proportional to the speed of the rich generator. 3-2.63 speed information machine lineat1achogsnearor detection wired motion speed deer, transfer money with it or let the ratio of the electric borrowing signal measurement of the motor. 3-2.64
question service motor r
applied to the motion of light control mirror small box output parameter effect, increase compliance such as the degree of control of the degree of control. 3-2.65 The filter grid motor is used to remove the hidden displacement of the electric structure.
3.2.66 slurlussErmaturedirectcurrentservomatar also system weave medical release car without beat light core surface three green rising question stock motor, 3.2.6/
light lack of core gram flow direction servo motor irumlsscorrleisdireeteurrenyservootoz electric rainbow sound divided by drinking magnetic material range of dc question servo motor expansion. 3.2.68 cup plate current servo motor movingcoitdirertcunentrer\voanin armature group is the residual non-coordinated control center of the ironless dc servo motor. 3-2.69
Printed winding DC servo motor primltlDCscrvomctor:prinzedarntureDCevaarun A DC servo motor consisting of two or more layers of metal (pin, lead, etc.) wound flat and woven to form a coreless DC servo motor frame, made by printed circuit manufacturing or other methods. 3.2.70 Wounddisc-armatureDC sertuntor motor is a non-conductive self-flowing DC servo motor. 3.2. 71
AC motor lrntingu:rentcrvamotor is an AC motor with an AC current structure. 3-2.72 Two-phase AC servo motor 1wo-phaseAC:serv'moLot is an AC servo motor with an asynchronous structure, which is controlled by two AC voltages with opposite frequencies and independent of each other, and the torque, speed and rotation speed of the motor are controlled by the value or the appropriate difference of these two voltages. Cup-shaped rotor AC servo motor rgwueACsvotr3.2.73
The main conductive metal material behind the rotor is a cup-shaped two-phase AC motor. 3.2.74 Permanent magnet AC servo motorpermanentmagmetACkervomor:lunalusAc actvumolor;yn-chranaus Ac. se-sn rlnt
The alternating current motor adopts the structure of permanent-phase stepper motor. Under the control of the control system, the motor output torque, rotation and direction are controlled by the input current value and phase ratio of the integrated signal of the human command and rotor position detection. 3.2.75 The DC motor with electronic direction is used without any electric drama and without direction. 3.2.76 The linear motor is also a motor for linear motion.
The linear DC motor of the first code is also a motor. Eteppingmotgrialeppermotorystepmotor3. 2.78
The step-down motor is a multi-phase motor. When its phase is in sequence, its rotor moves according to a certain displacement (or direct displacement).
CB/T 2900.26--94
32.79 Permanent magnet gteppin motor The magnetic poles of the rotor are permanently separated, and a magnetic field is generated in the air. 3.2.60 Permanent disc stepper motor lisucrseppingmnton is a permanent stepper motor with a rotating disc.
3.2.1 Magnetic reversing stepper motor variable reluctanesieppiigmctar is a motor made of a soft material. The reluctance effect of the stator and rotor teeth produces a step torque. 3.2.2 Hybrid stepper motor: a stepper motor in which the rotor has a permanent inductor to generate a unipolar magnetic field. This magnetic field is also modulated by the output of soft magnetic materials. 3.2.83 Linear stepper motor: a stepper motor that performs linear motion.
3.2.84 Two-axis stepper motor: a stepper motor that performs two-way motion in a flat and limited area. 3.2.5 Magnetic stepper motor: a stepper motor with a large torque silicon stepper motor structure that has convex stators and rotors and similar pole numbers, and uses a rotor overload sensor to control the conductivity of each phase through an electronic power unit. 3.2.86 Torque motor: a stepper motor that can drive loads autonomously, and can continue to work at low speed or stalled state. It is a servo motor with output as the main function. 3-2. 88
AC torque motor alternating current targucmctor torque motor using alternating current motor wax structure. 9 non-shaving reciprocating torque motor lubleirrrijurtcr3. 2. 89
torque motor based on the principle of effective non-controlled direct current motor. 3-2. 87
small cabinet motor using open DC mechanism. 3-2. 88
AC torque motor alternating current targucmctor torque motor using alternating current motor wax structure. 3-2. 89
torque motor based on the principle of effective non-controlled direct current motor. 3-2. 0 limited angle torque motor when constant current is supplied to the system box, the motor works within a certain angle range and outputs a predetermined constant torque motor. Hysteresis stepper motor lysleresissynchronousmnint3-2.97
Historical question stepper motor that runs by hysteresis torque generated by the rotor and stator of the hysteresis material, 3. 2. 92
Low speed stepper motor lowspeedaynchronpuymotar A synchronous motor with a speed of tens of revolutions per minute or several revolutions per minute is obtained without mechanical reduction, using the stator and rotor tooth loss effect under the power supply of the power supply,
3-2.93 Rotatingamplifier A special structure direct current generator that performs magnetic synthesis on the input signal of each control winding in the motor, and the result is amplified and output with a certain power.
3.2.94 Anrplidyne A motor amplifier that is formed by a brush and a short armature. 3.2.95 Servo motor * ervamotortachogenerEcor A unit that is composed of a motor and a counter generator. 3.2. 96 Month
Self-adjusting servo motor
A low-power servo motor is composed of a self-adjusting voltage regulator, a DC motor and an electric circuit. It receives the electrical signal of the self-adjusting transmitter and accurately detects the axis and motion of the motor. 3.3 Electronic control devices for controlling motors
GB/T 29D0.26.-94
3.3.1 Servo motor selector
A control device that receives signals from a host computer and feedback signals, converts or calculates the output signal to the power supply, and controls the motor to complete the desired motion. The control device is a motor that controls the motor in a certain manner, or in a certain period of time. Usually, each parameter is controlled by its own control loop. 3.3.2 Power amplifier A power amplifier is amplified and controlled by the input power source to control the motor to send energy to achieve a controlled motion device. 3.3.3 Pulse modulation amplifier A madalated amplifier is a switching amplifier. It has a constant frequency setting, changes the pulse width, controls the voltage or the average value of the supply voltage.
3.3.4 Direct current servo driver A servo driver that also includes a power amplifier and a control controller. 3-3.5 DC servo drive EXTvuGrieT A servo drive that is matched with a DC servo motor. Constant current drive AC drive with AC motor 3-3.7 Electric or brushless actuator D servomsiarritivur with AC motor 3.3.9 Inveler A device that converts direct current into alternating current, 3.3.9 Stepping motor controller A control device that enables a variable speed motor to realize intelligent motion control, 3.3.10 Stepper motor driver is a driver that outputs power to the stepper motor in a certain sequence. It is usually composed of a converter and a amplifier. 3. 3.12 Angle/code converter is a circuit or component that converts the stepper motor command into a timing logic signal suitable for driving the stepper motor. 3.3.13 Automatic/digital converter is a device that converts the angle signal into a digital signal. 3.3.14 Transformer/digital converter is a device that converts the device signal into a digital signal. 3-3.15 Digital/synehsoconverter A device or component that converts digital signals into analog and digital signals. 3.-3-1f Digital/rotary transformer A device or component that converts digital signals into four-wire signals. 3.4 Structural category terms ||TT|| 3.4.1 Coamonmagnerirmhypc A structure in which two or more motors are placed in a long central axis. 3.4.2 Assemblyiype||TT|| A motor structure in which the motor has a housing and a shaft and is assembled into a complete motor structure. 3.4.3 Separated1ym||TT|| A motor structure in which the motor has only a stator and other main components and cannot be assembled into a complete motor. 3.4.coraepeed
CB/129C3.26--94
Dual channel self-regulating, the new 3.4.5 machine finespueu
double through the self-energy angle machine. The new part of the pressure sensor or induction device will be greater than 1. 3-4.6he1
The combination of more than two control machines is the key to the type, 4 main parts and accessories
4.1 dyeing group
4.1.1 input cutulwndirg
investment ratio heart or heart compensation porcelain group
4..2 control winding runtrol winuding
down to get the trust, the whole control electric falling group.
4.1.3 Select rmhrunixingwirdin store
Start the receiving machine in the system and connect the three groups. M1.4 supplementary line group unupeaxatingwind:ny to Xiao! The profit column is the remaining fee for the temperature, and the compensation is the absolute 4.TG compensation group fed-back campeantingwindiag is the supply store number. The gradual entry of the public high micro-xiao is to make the winding of the alternating ring wire realize the influence of the motor on the energy generation. 4.-G of ua:lralure-uxinwiuling pregnancy and quality you winding wire empty installation with the first degree of research. 4? Sinusoidal energy re wig
winding self-effective conductor number nearly correct garbage right fall winding distribution, right test line si-oanwiding
before the output voltage value and the control of the transfer order to show the relationship between the number of burning proof. 4.1.9
The relationship between the output of the output and the rotor is a function of the output. 4.1.10 Thermostatic winding wrmw
For the purpose of increasing the thermal performance of the generator, the following are some additional parameters: 4.2 Mechanical properties, electromagnetic components
4.2.1 The stator of the external rotor in the stator-type rotor 4.2.2 The stator of the internal rotor in the stator-type rotor 4.2.3 The external rotor is placed on the external rotor.
4.2.4 Internal rotor
The rotor placed inside the stator (i.e. the rotating part of the motor) 4.2.5 Moving part of the linear motor.
4.2.6 Static part of the linear motor
4.2.7 The static part of the linear motor.
4.2.8 Slide
The moving part of the synchronous motor.
4.2.9 Centimeter waveguide
G No., T 2900.2694
The standard weak-speed mechanical component of the electric science and technology. .2. Rotor ragp10bZxz.net
The rotor with a hollow rod-shaped inner and outer grooves on both sides can be equipped with micro-electrodes. 4.3 Accessories
4-3.1 Step reducer Reaerateaialigarbmx Step or multi-stage gear transmission makes the replacement speed lower than the machine speed. 5 Characteristics and effects
5.1. General characteristics and roll numbers
51.1 Static conveyor
When the motor is not good, the rotation of the belt starts to rotate at the position you want, and the friction of the belt is not related to the rotation. 5.1.2
The friction of the belt is not related to the rotation. 5.3 Mechanical friction is related to the rotation speed. 5-1.4 HyslerezisErictia:Torque corresponds to the magnetic core loss and the generated torque.5.1.5 Excitation static torque cxcitingfrictiontorque The minimum value of the torque generated by the rotor under the specified conditions when the rotor starts to rotate at any position.5.1.E Stalltorque
The minimum value of the torque generated by the rotor under the specified conditions when the rotor rotates at different positions.5.1.7 Rotational inertia
The inertia of the rotor in the center of the shaft.5.1.8 Electricaltimeconla The time reported when the motor reaches its maximum value under the specified voltage and conditions. 5.1.9 Thermal time factor thcrmaltimeconsEnt The time required for the motor terminal temperature rise to reach 63.2% of the stable compensation value under constant power consumption and specified conditions. 5.1.10 Current link factor irreutFur: The ratio of the effective value of the current to the absolute value of the average current, no-loadspeed
The stable speed of the motor under certain input conditions when no-load. 5.1.12
Limiting speed limit Speed!
The maximum speed allowed by the motor under the conditions of guaranteed electrical insulation frequency and mechanical stability. 5.1.13 (Phase) voltage reference voltage is usually the reference voltage of the phase parameter,
5.7.14 Interval component in-phasecoraepeed
CB/129C3.26--94
Dual channel self-regulating energy, the fan refers to the new 3.4.5 machine finespueu
Dual through the self-energy angle machine. The fan turns the heart pressure or induction to the new part of the effect greater than 1. 3-4.6he1
The combination of more than two control towel machines into a task, 4 main parts and accessories
4.1 dyeing group
4.1.1 input ancestor cutulwndirg
investment ratio heart or heart compensation porcelain group
4..2 control winding runtrol winuding
down to get the trust, the whole control electric falling group.
4.1.3 Select rmhrunixingwirdin store
Start the receiving machine in the system and connect the three groups. M1.4 supplementary line group unupeaxatingwind:ny to Xiao! The profit column is the remaining fee for the temperature, and the compensation is the absolute 4.TG compensation group fed-back campeantingwindiag is the supply store number. The gradual entry of the public high micro-xiao is to make the winding of the alternating ring wire realize the influence of the motor on the energy generation. 4.-G of ua:lralure-uxinwiuling pregnancy and quality you winding wire empty installation with the first degree of research. 4? Sinusoidal energy re wig
winding self-effective conductor number nearly correct garbage right fall winding distribution, right test line si-oanwiding
before the output voltage value and the control of the transfer order to show the relationship between the number of burning proof. 4.1.9
The relationship between the output of the output and the rotor is a function of the output. 4.1.10 Thermostatic winding wrmw
For the purpose of increasing the thermal performance of the generator, the following are some additional parameters: 4.2 Mechanical properties, electromagnetic components
4.2.1 The stator of the external rotor in the stator-type rotor 4.2.2 The stator of the internal rotor in the stator-type rotor 4.2.3 The external rotor is placed on the external rotor.
4.2.4 Internal rotor
The rotor placed inside the stator (i.e. the rotating part of the motor) 4.2.5 Moving part of the linear motor.
4.2.6 Static part of the linear motor
4.2.7 The static part of the linear motor.
4.2.8 Slide
The moving part of the synchronous motor.
4.2.9 Centimeter waveguide
G No., T 2900.2694
The standard weak-speed mechanical component of the electric science and technology. .2. Rotor ragp10
The rotor with a hollow rod-shaped inner and outer grooves on both sides can be equipped with micro-electrodes. 4.3 Accessories
4-3.1 Step reducer Reaerateaialigarbmx Step or multi-stage gear transmission makes the replacement speed lower than the machine speed. 5 Characteristics and effects
5.1. General characteristics and roll numbers
51.1 Static conveyor
When the motor is not good, the rotation of the belt starts to rotate at the position you want, and the friction of the belt is not related to the rotation. 5.1.2
The friction of the belt is not related to the rotation. 5.3 Mechanical friction is related to the rotation speed. 5-1.4 HyslerezisErictia:Torque corresponds to the magnetic core loss and the generated torque.5.1.5 Excitation static torque cxcitingfrictiontorque The minimum value of the torque generated by the rotor under the specified conditions when the rotor starts to rotate at any position.5.1.E Stalltorque
The minimum value of the torque generated by the rotor under the specified conditions when the rotor rotates at different positions.5.1.7 Rotational inertia
The inertia of the rotor in the center of the shaft.5.1.8 Electricaltimeconla The time reported when the motor reaches its maximum value under the specified voltage and conditions. 5.1.9 Thermal time factor thcrmaltimeconsEnt The time required for the motor terminal temperature rise to reach 63.2% of the stable compensation value under constant power consumption and specified conditions. 5.1.10 Current chain factor irreutFur: The ratio of the effective value of the current to the absolute value of the average current, no-loadspeed
The stable speed of the motor under certain input conditions when no-load. 5.1.12
Limiting speed limit Speed!
The maximum speed allowed by the motor under the conditions of guaranteed electrical insulation frequency and mechanical stability. 5.1.13 (Phase) phase voltage refereacevuliage is usually the reference voltage of the phase parameter,
5.7.14 Interval component in-phasecoraepeed
CB/129C3.26--94
Dual channel self-regulating energy, the fan refers to the new 3.4.5 machine finespueu
Dual through the self-energy angle machine. The fan turns the heart pressure or induction to the new part of the effect greater than 1. 3-4.6he1
The combination of more than two control towel machines into a task, 4 main parts and accessories
4.1 dyeing group
4.1.1 input ancestor cutulwndirg
investment ratio heart or heart compensation porcelain group
4..2 control winding runtrol winuding
down to get the trust, the whole control electric falling group.
4.1.3 Select rmhrunixingwirdin store
Start the receiving machine in the system and connect the three groups. M1.4 supplementary line group unupeaxatingwind:ny to Xiao! The profit column is the remaining fee for the temperature, and the compensation is the absolute 4.TG compensation group fed-back campeantingwindiag is the supply store number. The gradual entry of the public high micro-xiao is to make the winding of the alternating ring wire realize the influence of the motor on the energy generation. 4.-G of ua:lralure-uxinwiuling pregnancy and quality you winding wire empty installation with the first degree of research. 4? Sinusoidal energy re wig
winding self-effective conductor number nearly correct garbage right fall winding distribution, right test line si-oanwiding
before the output voltage value and the control of the transfer order to show the relationship between the number of burning proof. 4.1.9
The relationship between the output of the output and the rotor is a function of the output. 4.1.10 Thermostatic winding wrmw
For the purpose of increasing the thermal performance of the generator, the following are some additional parameters: 4.2 Mechanical properties, electromagnetic components
4.2.1 The stator of the external rotor in the stator-type rotor 4.2.2 The stator of the internal rotor in the stator-type rotor 4.2.3 The external rotor is placed on the external rotor.
4.2.4 Internal rotor
The rotor placed inside the stator (i.e. the rotating part of the motor) 4.2.5 Moving part of the linear motor.
4.2.6 Static part of the linear motor
4.2.7 The static part of the linear motor.
4.2.8 Slide
The moving part of the synchronous motor.
4.2.9 Centimeter waveguide
G No., T 2900.2694
The standard weak-speed mechanical component of the electric science and technology. .2. Rotor ragp10
The rotor with a hollow rod-shaped inner and outer grooves on both sides can be equipped with micro-electrodes. 4.3 Accessories
4-3.1 Step reducer Reaerateaialigarbmx Step or multi-stage gear transmission makes the replacement speed lower than the machine speed. 5 Characteristics and effects
5.1. General characteristics and roll numbers
51.1 Static conveyor
When the motor is not good, the rotation of the belt starts to rotate at the position you want, and the friction of the belt is not related to the rotation. 5.1.2
The friction of the belt is not related to the rotation. 5.3 Mechanical friction is related to the rotation speed. 5-1.4 HyslerezisErictia:Torque corresponds to the magnetic core loss and the generated torque.5.1.5 Excitation static torque cxcitingfrictiontorque The minimum value of the torque generated by the rotor under the specified conditions when the rotor starts to rotate at any position.5.1.E Stalltorque
The minimum value of the torque generated by the rotor under the specified conditions when the rotor rotates at different positions.5.1.7 Rotational inertia
The inertia of the rotor in the center of the shaft.5.1.8 Electricaltimeconla The time reported when the motor reaches its maximum value under the specified voltage and conditions. 5.1.9 Thermal time factor thcrmaltimeconsEnt The time required for the motor terminal temperature rise to reach 63.2% of the stable compensation value under constant power consumption and specified conditions. 5.1.10 Current link factor irreutFur: The ratio of the effective value of the current to the absolute value of the average current, no-loadspeed
The stable speed of the motor under certain input conditions when no-load. 5.1.12
Limiting speed limit Speed!
The maximum speed allowed by the motor under the conditions of guaranteed electrical insulation frequency and mechanical stability. 5.1.13 (Phase) voltage reference voltage is usually the reference voltage of the phase parameter,
5.7.14 Interval component in-phase1 Step-gear reducer Reataealigarbmx stage or multi-stage gear transmission makes the replacement speed lower than the machine speed. 5 Characteristics and set effects
5.1. General characteristics and roll numbers
51.1 Static conveyor
When the motor is not good, the rotation of the belt starts to rotate at the position of the friction seat bottle, the rate of rotation of the friction seat bottle 5.1.2
The friction force whose size is independent of the rotation track. 5.3 Mechanical paint force Viscous friction toitut The friction force whose size is related to the speed. 5-1.4 HyslerezisErictia:Torque corresponds to the magnetic core loss and the generated torque.5.1.5 Excitation static torque cxcitingfrictiontorque The minimum value of the torque generated by the rotor under the specified conditions when the rotor starts to rotate at any position.5.1.E Stalltorque
The minimum value of the torque generated by the rotor under the specified conditions when the rotor rotates at different positions.5.1.7 Rotational inertia
The inertia of the rotor in the center of the shaft.5.1.8 Electricaltimeconla The time reported when the motor reaches its maximum value under the specified voltage and conditions. 5.1.9 Thermal time factor thcrmaltimeconsEnt The time required for the motor terminal temperature rise to reach 63.2% of the stable compensation value under constant power consumption and specified conditions. 5.1.10 Current link factor irreutFur: The ratio of the effective value of the current to the absolute value of the average current, no-loadspeed
The stable speed of the motor under certain input conditions when no-load. 5.1.12
Limiting speed limit Speed!
The maximum speed allowed by the motor under the conditions of guaranteed electrical insulation frequency and mechanical stability. 5.1.13 (Phase) voltage reference voltage is usually the reference voltage of the phase parameter,
5.7.14 Interval component in-phase1 Step-gear reducer Reataealigarbmx stage or multi-stage gear transmission makes the replacement speed lower than the machine speed. 5 Characteristics and set effects
5.1. General characteristics and roll numbers
51.1 Static conveyor
When the motor is not good, the rotation of the belt starts to rotate at the position of the friction seat bottle, the rate of rotation of the friction seat bottle 5.1.2
The friction force whose size is independent of the rotation track. 5.3 Mechanical paint force Viscous friction toitut The friction force whose size is related to the speed. 5-1.4 HyslerezisErictia:Torque corresponds to the magnetic core loss and the generated torque.5.1.5 Excitation static torque cxcitingfrictiontorque The minimum value of the torque generated by the rotor under the specified conditions when the rotor starts to rotate at any position.5.1.E Stalltorque
The minimum value of the torque generated by the rotor under the specified conditions when the rotor rotates at different positions.5.1.7 Rotational inertia
The inertia of the rotor in the center of the shaft.5.1.8 Electricaltimeconla The time reported when the motor reaches its maximum value under the specified voltage and conditions. 5.1.9 Thermal time factor thcrmaltimeconsEnt The time required for the motor terminal temperature rise to reach 63.2% of the stable compensation value under constant power consumption and specified conditions. 5.1.10 Current link factor irreutFur: The ratio of the effective value of the current to the absolute value of the average current, no-loadspeed
The stable speed of the motor under certain input conditions when no-load. 5.1.12
Limiting speed limit Speed!
The maximum speed allowed by the motor under the conditions of guaranteed electrical insulation frequency and mechanical stability. 5.1.13 (Phase) voltage reference voltage is usually the reference voltage of the phase parameter,
5.7.14 Interval component in-phase
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