8V1320.00-2伺服驱动器8V1320.002参详
8V1320.00-2伺服驱动器8V1320.002参详
8V1320.00-2伺服驱动器8V1320.002参详
PDD405A101 3BHE041626R0101
4PP220.0571-45
8V1320.00-2
PFEA113-65
VPL-B1153F-PJ14AA
6ES7405-0KR02-0AA0
IC695CPE302
IC695CPU310
IC695NIU001
3HAC028357-001
140CPU21304 1 查不到面价
140CRA21110 1 面价7909
140CPS12400 1 查不到面价
ACS880-304-0570A-7+A018
SACE S5H-D 1
6ES7405-0KR02-0AA0数量5
6ES7331-7TF01-0AB0数量6
6ES7355-0VH10-0AE0数量3
6ES7412-3HJ14-0AB0数量2
IC693MDL645 数量5
IC694MDL940 数量4
IC693ALG221 数量5
IC693ALG390 数量3
IC693MDL655 数量10
IC695CHS016 数量2 .
VPL-B1153F-PJ14AA 1个 面价28391
MPL-B540D-SJ72AA 1个 面价35670
MPL-B560F-MJ72AA 1个 面价44331
IC695CPU310 数量3
IC695CPE302 数量5
IC695ALG600 数量25
IC695ALG704 数量5
IC695NIU001 数量11
IC695HSC304 数量5
IC698PSA100 数量15
ACS510-01-060A-4 4
ACS550-01-059A-4 1
ACS510-01-09A4-4 4
6FC5220-0AA00-1AA0 1
3BSM011000-1 4
3BSM021003-A 2 pcs
3BSM056073-A 9 pcs
CIMR-JT2A0002BAA 1
ACS580-01-363A-4 带中文面板 1
UFC911B108
PD D405 A101 1
A1A13000346.09 1
A5E02205474 1
A1A084918 2
6SL3352-1AG35-8BA1 1
FANUC电源单元A16B-1212-0100-01 1个
A5E00842112
C98043-A7090-L1
A5E00357869
3BHB036781R0001 1
PEBB-R6 2UBA004416R0006 2
BCU-02+程序 3AUA0000110429-M 1
CONTOR-HUB+程序 3BHE041626R0101 1
YOKOGAWA SBSD SBSD
YASKAWA ELECTRIC USADED-45-YR14 USADED45YR14
YASKAWA ELECTRIC JANCD-SV02C JANCDSV02C
YASKAWA ELECTRIC JANCD-SV02B JANCDSV02B
YASKAWA ELECTRIC CIMR-H110B.D-10 CIMRH110BD10
WHEDCO MTR-3S86-G-R-0-E-S MTR3S86GR0ES
VEE ARC 931-048 931048
TYCOR PTYSXTY480YEDRSX PTYSXTY480YEDRSX
TYCOR PTY-H-277/480-PD-4XTS PTYH277480PD4XTS
TRIDIUM INC WEB-545I-AX WEB545IAX
TREND IQ3-4002K4096 IQ34002K4096
TRANSTECTOR ACP100BW ACP100BW
TEXAS INSTRUMENTS PLC VPU210-3105 VPU2103105
TELEMECANIQUE ATV-452D15 ATV452D15
TB WOODS DVC51000AXN0BG DVC51000AXN0BG
TAYLOR ELECTRONICS 6214BZ10110 6214BZ10110
TAYLOR ELECTRONICS 6205BZ10000K 6205BZ10000K
TAYLOR ELECTRONICS 6205BZ10000 6205BZ10000
SUPERIOR ELECTRIC MX2000-2 MX20002
STROMBERG SAFT-101-C0N SAFT101C0N
SQUARE D SED362000LSGET1A8 SED362000LSGET1A
SQUARE D MHL36600-1021 MHL366001021
SQUARE D 8903SVC63V81CC33F4TY1532 8903SVC63V81CC33
SQUARE D 8539-SFW44-V81CFF4H30P1TX11 8539SFW44V81CFF4
SIEMENS R15C02188 R15C02188
SIEMENS 6SL3-351-1AE33-1AA1 6SL33511AE331AA1
SIEMENS 6SE7-016-1EA61 6SE70161EA61
SIEMENS 6SE3-228-4DK40 6SE32284DK40
SIEMENS 6RA2-625-6MV30-0 6RA26256MV300
SIEMENS 6-RA-2610-6M30D 6RA26106M30D
SIEMENS 6GT2001-0CA10 6GT20010CA10
SIEMENS 6FX1-138-6BB01 6FX11386BB01
SIEMENS 6FM1-726-3BA00 6FM17263BA00
SIEMENS 6FM1-470-3BA25 6FM14703BA25
SIEMENS 6FM1-470-3BA20 6FM14703BA20
SIEMENS 6ES5-955-5LB11 6ES59555LB11
SIEMENS 6DD1-661-0AB1 6DD16610AB1
SIEMENS 6AV7-614-0AB12-0BJ0 6AV76140AB120BJ0
SIEMENS 1PH7107-2HD03-0BA3 1PH71072HD030BA3
SIEMENS 1GG5-162-0WX40-6HV3-Z 1GG51620WX406HV3
SICK OPTIC ELECTRONIC LMS-200-S60 LMS200S60
SCHWEITZER ENGINEERING SEL-121F-X-4256MHNB SEL121FX4256MHNB
RELIANCE ELECTRIC FLEXPAX3000 FLEXPAX3000
RELIANCE ELECTRIC DDM-019X DDM019X
RELIANCE ELECTRIC B/M-60001-1 BM600011
RELIANCE ELECTRIC B/M-60001 BM60001
RELIANCE ELECTRIC 86466-87T 8646687T
RELIANCE ELECTRIC 86466-87R 8646687R
RELIANCE ELECTRIC 57C-435A 57C435A
RELIANCE ELECTRIC 57C-435 57C435
RELIANCE ELECTRIC 45C-203 45C203
RELIANCE ELECTRIC 10P8171 10P8171
RELIANCE ELECTRIC 0-57435-G 057435G
RELIANCE ELECTRIC 0-52837 052837
RELIANCE ELECTRIC 0-52501-1 0525011
PANASONIC YB-020UDD YB020UDD
NEMATRON CORP ICC-8L6-HS1-850 ICC8L6HS1850
MODICON MM-PMC3-100 MMPMC3100
MODICON MM-PMA2-400C MMPMA2400C
MODICON I646-4 I6464
MODICON AS-509P-007 AS509P007
MODICON 141-MMS-425-01 141MMS42501
MIYACHI IS-471B IS471B
MITSUBISHI HALP15K24BK HALP15K24BK
MITSUBISHI FRZ220-22.0K FRZ220220K
MITSUBISHI FR-SF-2-22K FRSF222K
MITSUBISHI A2U-CPU-S1 A2UCPUS1
MICROSWITCH 82114930-50 8211493050
MICROSTAR LABORATORIES DAP3200A/415 DAP3200A415
MEASUREX 51403299-200 51403299200
MEASUREX 51402755-100 51402755100
MEASUREX 09437300 09437300
伺服驱动器是现代运动控制的重要组成部分,被广泛应用于工业机器人及数控加工中心等自动化设备中。尤其是应用于控制交流永磁同步电机的伺服驱动器已经成为国内外研究热点。当前交流伺服驱动器设计中普遍采用基于矢量控制的电流、速度、位置三闭环控制算法。该算法中速度闭环设计合理与否,对于整个伺服控制系统,特别是速度控制性能的发挥起到关键作用。
在伺服驱动器速度闭环中,电机转子实时速度测量精度对于改善速度环的转速控制动静态特性至关重要。为寻求测量精度与系统成本的平衡,一般采用增量式光电编码器作为测速传感器,与其对应的常用测速方法为M/T测速法。M/T测速法虽然具有·定的测量精度和较宽的测量范围,但这种方法有其固有的缺陷,主要包括:1)测速周期内·须检测到至少一个完整的码盘脉冲,限制了·低可测转速;2)用于测速的2个控制系统定时器开关难以严格保持同步,在速度变化较大的测量场合中无法保证测速精度。因此应用该测速法的传统速度环设计方案难以提高伺服驱动器速度跟随与控制性能。