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Transcript of Servomotores Siemens 1ph7
Planning Guide 05/2004 Edition
simodrive
Induction Motors 1PH7 Main Spindle Drives
05.2004 Edition
Induction Motors1PH7 Main Spindle Drives
SIMODRIVE 611
Planning Guide
Motor Description 1
Technical Data and Characteristics 2
Motor Components 3
Dimension Drawings 4
References A
Index
SIMODRIVE Documentation
Printing history
Brief details of this edition and previous editions are listed below.
The status of each edition is shown by the code in the “Remarks” column.
Status code in the “Remarks” column:
A New documentation. . . . . B Unrevised reprint with new order no.. . . . . C Revised edition with new status. . . . .
Edition Order No. for 1PH7 SIMODRIVE Remarks
03.04 6SN1197-0AC65-0BP0 A
05.04 6SN1197-0AC65-0BP1 C
This manual is included in the documentation available on CD-ROM (DOCONCD)Edition Order No. Remarks09.04 6FC5 298-7CA00-0BG1 C
TrademarksSIMATIC, SIMATIC HMI, SIMATIC NET, SIROTEC, SINUMERIK, SIMODRIVE andMOTION-CONNECT are trademarks of Siemens AG. Other product names used in this documentationmay be trademarks which, if used by third parties, could infringe the rights of their owners.
Further information is available on the Internet under:http://www.siemens.com/motioncontrol
This publication was produced with Interleaf V 7
The reproduction, transmission or use of this document or itscontents is not permitted without express written authority. Offenderswill be liable for damages. All rights, including rights created by patentgrant or registration of a utility model or design, are reserved.
Siemens AG, 2004. All rights reserved
Other functions not described in this documentation might beexecutable in the control. However, no claim can be made regardingthe availability of these functions when the equipment is first suppliedor for service cases.
We have checked that the contents of this document correspond tothe hardware and software described. Nonetheless, differences mightexist and therefore we cannot guarantee that they are completelyidentical. The information contained in this documentation is,however, reviewed regularly and any necessary changes will beincluded in the next edition. We welcome suggestions forimprovement.
Subject to change without prior notice.
Siemens AktiengesellschaftOrder No. 6SN1197-0AC65-0BP1Printed in Germany
3ls
v Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Preface
Information on the documentation
This document is part of the Technical Customer Documentation which has beendeveloped for the SIMODRIVE drive converter system. All of the documents areavailable individually. The documentation list, which includes all Advertising Bro-chures, Catalogs, Overview, Short Descriptions, Operating Instructions and Techni-cal Descriptions with order number, ordering address and price can be obtainedfrom your local Siemens office.
For reasons of transparency, this document does not include detailed informationabout all of the product types. Further, it cannot take into account every conceiv-able installation, operation or service/maintenance situation.
We would also like to point-out that the contents of this document are neither partof nor modify any prior or existing agreement, commitment or contractual relation-ship. The sales contract contains the entire obligation of Siemens. The warrantycontained in the contract between the parties is the sole warranty of Siemens. Anystatements contained herein neither create new warranties nor modify the existingwarranty.
Structure of the documentation for 1PH and 1PL motors
The complete Planning Guides for 1PH and 1PL motors can be ordered in paperform.
Table 1-1 Planning Guide with General Section and 1PH and 1PL6 motors
Title Order number (MLFB) Lan-guage
Induction Motors, 1PH and 1PL6 6SN1197-0AC61-0AP0 German
Induction Motors, 1PH and 1PL6 6SN1197-0AC61-0BP0 English
The General Section and the individual motor series are also separately available.
Table 1-2 Planning Guide, individual sections
Title Order number (MLFB) Lan-guage
Induction Motors, General Section for SIMODRIVE and SIMOVERT MASTERDRIVES
6SN1197-0AC62-0AP0 German
Induction Motors, Motor Section 1PH2 6SN1197-0AC63-0AP0 German
Induction Motors, Motor Section 1PH4 6SN1197-0AC64-0AP0 German
Induction Motors, 1PH7 Motor Section for SIMODRIVE 6SN1197-0AC65-0AP1 German
Induction Motors, 1PH7 Motor Section for SIMOVERT MASTERDRIVES VC/MC
6SN1197-0AC66-0AP0 German
Induction Motors, 1PL6 Motor Section for SIMOVERT MASTERDRIVES VC/MC
6SN1197-0AC67-0AP0 German
Preface
vi Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Commissioning software
Additional commissioning software is available to commission induction motorsconnected to the SIMODRIVE drive converter system.
Order No. [MLFB] for software 6SN1153-2AX10-AB5Order No. [MLFB] for documentation 6SN1197-0AA30-0B
Hotline
Should you have any questions, please consult the following Hotline:
A&D Technical Supports Phone: +49 (180) 5050-222Fax: +49 (180) 5050-223Email: [email protected]
If you have any questions about the documentation (suggestions, corrections)please send a fax to the following fax address:
+49 (9131) 98-2176
Fax form: see the feedback page at the back of this document.
Definition of qualified personnel
For the purpose of this document and product labels, a qualified person is a personwho is familiar with the installation, mounting, start-up and operation of the equip-ment and hazards involved. He or she must have the following qualifications:
Trained and authorized to energize/de-energize, circuits and equipment inaccordance with established safety procedures.
Trained in the proper care and use of protective equipment in accordance withestablished safety procedures.
Trained in rendering first aid.
Preface
vii Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Explanation of symbols
The following danger and warning concept is used in this document:
!Danger
This symbol is always used if death, severe personal injury or substantial materialdamage will result if proper precautions are not taken.
!Warning
This symbol is always used if death, severe personal injury or substantial materialdamage can result if proper precautions are not taken.
!Caution
This symbol is always used if minor personal injury or material damage can resultif proper precautions are not taken.
Caution
The warning note (without a warning triangle) means that material damage canoccur if proper precautions are not taken.
Notice
This warning note indicates that an undesirable result or an undesirable status canoccur if the appropriate information is not observed.
Note
In this document, it can be advantageous to observe the information provided in aNote.
Preface
viii Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Danger and warning information
!Danger Start-up/commissioning is absolutely prohibited until it has been completely
ensured that the machine, in which the components described here are to beinstalled, is in full compliance with the specifications of Directive 98/37/EC.
Only appropriately qualified personnel may commission SIMODRIVE units andAC motors.
This personnel must carefully observe the technical customer documentationbelonging to this product and be knowledgeable about and carefully observethe danger and warning information.
Operational electrical equipment and motors have parts and components whichare at hazardous voltage levels.
Hazardous axis motion can occur when working with the equipment.
All work must be undertaken with the system in a no-voltage condition(powered-down).
SIMODRIVE drive units are generally designed for operation on low-ohmic,grounded line supplies (TN line supplies). For additional information pleaserefer to the appropriate documentation for the drive converter systems.
!Warning Perfect and safe operation of these units and motors assumes professional
transport, storage, mounting and installation as well as careful operator controland servicing.
The information provided in catalogs and quotations additionally applies tospecial versions of units and motors.
In addition to the danger and warning information/instructions in the technicalcustomer documentation supplied, the applicable domestic, local andplant-specific regulations and requirements must be carefully taken intoaccount.
!Caution The motors can have surface temperatures of over +100 C.
This is the reason that temperature-sensitive components, e.g. cables orelectronic components may neither be in contact nor be attached to the motor.
When handling cables, please observe the following:
– They may not be damaged
– They may not be stressed
– They should not come into contact with rotating components.
Preface
ix Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Caution Motors should be connected-up according to the circuit diagram provided. They
must not be connected directly to the three-phase supply because this willdamage them.
SIMODRIVE drive units with induction motors are subject, as part of the routinetest, to a voltage test in accordance with EN 50178. While the electricalequipment of industrial machines is being subject to a voltage test inaccordance with EN60204-1, Section 19.4, all SIMODRIVE drive unitconnections must be disconnected/withdrawn in order to avoid damaging theSIMODRIVE drive units.
Notes
SIMODRIVE units with induction motors fulfill, when operational and in dryoperating rooms, the Low-Voltage Directive 73/23/EEC.
SIMODRIVE units with induction motors fulfill, in the configuration specified inthe associated EC Declaration of Conformity, the EMC Directive 89/336/EEC.
Preface
x Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
ESDS information and instructions
!Caution
ElectroStatic Discharge Sensitive devices (ESDS) are individual components,integrated circuits or modules which could be damaged as a result of electrostaticfields or electrostatic discharge.
Handling ESDS boards:
When handling components which can be destroyed by electrostatic discharge,it must be ensured that personnel, the workstation and packaging are wellgrounded!
Electronic boards may only be touched by personnel in ESDS areas withconductive flooring if
– they are grounded with an ESDS bracelet
– they are wearing ESDS shoes or ESDS shoe grounding strips.
Electronic boards may only be touched when absolutely necessary.
Electronic boards may not be brought into contact with plastics and articles ofclothing manufactured from man-made fibers.
Electronic boards may only be placed on conductive surfaces (table with ESDSsurface, conductive ESDS foam rubber, ESDS packing bag, ESDS transportcontainers).
Electronic boards may not be brought close to data terminals, monitors ortelevision sets (minimum clearance >10 cm).
Measuring work may only be carried-out on the electronic boards, if
– the measuring unit is grounded (e.g. via a protective conductor) or
– when floating measuring equipment is used, the probe is briefly dischargedbefore making measurements (e.g. a bare-metal control housing istouched).
xi Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Contents
1 Motor Description 1PH7/1-13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.1 Applications and features 1PH7/1-13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.2 Technical design 1PH7/1-14. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.3 Technical design, options 1PH7/1-16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.4 Order number 1PH7/1-17. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.5 Rating plate data 1PH7/1-20. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.6 Cooling 1PH7/1-21. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.7 Electrical connections 1PH7/1-23. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.7.1 Connecting-up induction motors 1PH7/1-23. . . . . . . . . . . . . . . . . . . . . . . . . . . 1.7.2 Connecting-up information 1PH7/1-24. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.7.3 Supply data for separately-driven fans 1PH7/1-26. . . . . . . . . . . . . . . . . . . . .
1.8 Bearing design 1PH7/1-28. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.9 Vibration severity limit values 1PH7/1-31. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1.10 Mounting 1PH7/1-32. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2 Technical Data and Characteristics 1PH7/2-35. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.1 Technical data 1PH7/2-35. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.2 Power-speed and torque-speed diagrams 1PH7/2-38. . . . . . . . . . . . . . . . . .
2.3 Cantilever and axial force diagrams 1PH7/2-98. . . . . . . . . . . . . . . . . . . . . . . . 2.3.1 Cantilever force 1PH7/2-98. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.3.2 Axial force 1PH7/2-111. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3 Motor Components 1PH7/3-117. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.1 Thermal motor protection 1PH7/3-117. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.2 Encoders 1PH7/3-119. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.3 Gearboxes 1PH7/3-121. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.3.1 Features 1PH7/3-122. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.3.2 Gearbox design 1PH7/3-124. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.3.3 Technical data 1PH7/3-125. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.3.4 Electrical connections 1PH7/3-126. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.3.5 Gearbox stage selection 1PH7/3-127. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.3.6 Lubrication 1PH7/3-128. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.3.7 Flange dimensions 1PH7/3-129. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.3.8 Connections, circulating oil lubrication, frame size 100 1PH7/3-130. . . . . . . . 3.3.9 Connections, circulating oil lubrication, frame sizes 132 and 160 1PH7/3-1313.3.10 Gearbox dimensions 1PH7/3-132. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4 Dimension Drawings 1PH7/4-135. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.1 Type of construction IM B3 with separately-driven fan 1PH7/4-136. . . . . . . .
4.2 Type of construction IM B5 with separately-driven fan 1PH7/4-148. . . . . . . .
4.3 Type of construction IM B35 with separately-driven fan 1PH7/4-152. . . . . . .
Contents
xii Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
A References A-167. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Index Index-171. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1PH7/1-13 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Motor Description
1.1 Applications and features
Applications
The 1PH7 series is suitable for the closed-loop speed controlled operation ofmain spindles on machine tools, transfer lines, production machines and special-purpose machines.
Frame sizes 100 to 160 Frame size 225(this will be available upto 04.2004)
Frame sizes 180 to 225(frame size 225 will beavailable from 04.2004)
Fig. 1-1 1PH7 induction motors
Features
1PH7 motors are compact, force-ventilated four-pole squirrel-cage induction mo-tors.
Depending on the shaft height, 1PH7 motors have rated powers from 3.7 up to 100 kW at rated speeds from 500 to 2500 RPM.
Wide constant-power range
Short length
Full rated torque is continually available – even at standstill
High overload capability
Minimized disturbing envelope dimensions as a result of the integrated terminalbox (for shaft heights 100–160)
Standards, regulations
The appropriate standards, regulations are directly assigned to the functionalrequirements.
1
Motor Description
1.2 Technical design
1PH7/1-14 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
1.2 Technical design
Table 1-1 Design features
Technical features Version
Motor type Induction motor
Type of construction (acc. to EN 60034-7; IEC 60034-7)
SH 100 to 132: IM B3 (not for core types); IM B5; IM B35
SH 160 to 225: IM B3; IM B35
Degree of protection (acc. to EN 60034-5; IEC 60034-5)
IP55; fan IP54
Cooling (acc. to EN 60034-6; IEC 60034-6)
Air cooled, separately-driven fan at the NDE
Air flow direction: From DE to NDE
Winding insulation(acc. to EN 60034-1, IEC 60034-1)
Temperature rise class F for a cooling medium temperature of +40 °C
Thermal motor protection (acc. to EN 60034-11, IEC 60034-11)
KTY84 temperature sensor in the stator winding
Motor voltage Max. 3-ph. 430 V AC
Sound pressure level (acc. to DIN EN ISO 1680)
Tolerance +3 dB
SH 100 to 132: 70 dB (A)
SH 160 75 dB (A) 1)
SH 180 73 dB (A) 2)
SH 225 76 dB (A) 2)
Vibration stressing (acc. to IEC 68-2-6)
0.4 g at 63 Hz
Terminal box arrangement Top
Cable entry (when viewing the driveend)
Power cable: at the right for all SH
Signal cable: SH 100 to 160 right
SH 180 to 225, left
Connection type Motor and fan: via terminal box
Encoder: via connector (17-pin, mating connector is not included in the scope of supply)
Speed encoder, integrated Optical encoder Speed sensing Indirect position sensing (incremental)
Balancing (acc. to IEC 60034-14) Standard: Half-key balancing (dynamic),
Identifying symbol: H at the shaft face
Shaft end (acc. to DIN 748-3; IEC 60072-1)
Cylindrical; without keyway and without key tolerance field k6, (option, refer to Table 1-2)
Bearing version DE (Standard) SH 100 to 160:Suitable for belt and coupling out-drives
SH 180 to 225:Suitable for belt out-drives
Radial eccentricity, concentricity andaxial eccentricity(acc. to DIN 42955, IEC 60072-1)
SH 100 to 160: Tolerance level RSH 180 to 225: Tolerance level N
Motor Description
1.2 Technical design
1PH7/1-15 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 1-1 Design features, continued
Technical features Version
Vibration severity (acc. to EN 60034-14, IEC 60034-14)
Level R; level S for core types (refer to the Order code)
Installation height above sea level (acc. to EN 60034-1, IEC 60034-1)
1000 m above sea level, otherwise power de-rating (refer to Section 1.6)
Paint finish Without paint finish
Rating plate A rating plate is supplied loose for each motor
Documentation supplied with themotors
Operating instructions
1) For 60 Hz operation from the line supply, a screen (on request) is available to reduce the soundpressure level.
2) For shaft heights 180 and 225, noise dampening (on request) is available to reduce the sound pressurelevel.
Motor Description
1.3 Technical design, options
1PH7/1-16 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
1.3 Technical design, options
Table 1-2 Options
Technical features Version
Type of construction 1) All mounting positions are possible (refer to the Planning Guide “General Part for AC InductionMotors”)
Cooling 3) Air flow direction from the non-drive end to drive end
Cable entry 2) 3) SH 100 to 160
Power cable left, NDE or signal cable left, NDE
SH 180 to 225Power cable left, DE NDE or signal cable right, NDE DE
Shaft end Cylindrical (acc. to DIN 748, Part 3) with keyway and key
Tolerance zone SH 100 and 132: k6Tolerance zone SH 160 up to 225: m6
Bearing version SH 100 to 160, standard
SH 180 to 225Bearings for a coupling out-drive;Bearings for a coupling out-drive and increased speed (onlyfor SH 180);Bearings for increased cantilever force
Radial eccentricity, concentricity andaxial eccentricity(acc. to DIN 42955, IEC 60072-1)
Shaft Heights 100 to 160: StandardSH 180 to 225: Tolerance, level R
Vibration severity (acc. to EN 60034-14, IEC 60034-14)
SH 100 to 160: Level S 4); Level SR (=S/1.6)SH 180 to 225: Only for coupling out-drive, levels S and SR
Mounted/integrated components The motors can be supplied complete with mounted gearbox
Seal SH 100 to 160:DE flange with shaft seal (if occasional oil drops or oil mistlubricate the sealing ring)
1) For shaft heights 180 and 225, it must be ensured that the correct hoisting concept is applied2) Only in the specified combination3) Not for core types4) For core types, included in the basic version
Motor Description
1.4 Order number
1PH7/1-17 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
1.4 Order number
Motor type, design features and additional data are coded in the Order designation.
SH 100 to 160 standard version
. . .– ..
Encoder systemE = absolute value encoder (EnDat 2048 S/R) N = incremental encoder sin/cos 1 Vpp (without C and D tracks)M = incremental encoder sin/cos 1 Vpp (with C and D tracks)
– 0.
Size
1 P H 7 . . . . .
Cable entry direction (top of the terminal box, when view the DE)0 = from the right, 2 = from NDE, 3 = from the left
Separately-driven fan, 3-ph. 400 V AC/50 Hz or 3-ph. 480 V AC/60 Hz2 = with separately-driven fan, PG cable entry7 = with separately-driven fan, metric cable entry according to EN 50262
Type of construction0 = IM B3, IM V5, IM V62 = IM B5, IM V1, IM V3 (only for SH 100 and SH 132)3 = IM B35, IM V5, IM V36
Drive type Vibration severity level Shaft and flange accuracy
B = coupling and belt R RC = coupling and belt S RD = coupling and belt SR RK = coupling and belt N N (only for a mounted brake)L = increased maximum speed 2) SR R
Air flow direction Shaft endA = DE –> NDE with key, half-key balancingB = NDE –> DE with key, half-key balancingC = DE –> NDE with key, full key balancingD = NDE –> DE with key, full-key balancingJ = DE –> NDE smoothK = NDE –> DE smooth (no keyway)
Paint finish0 = without2 = without, oiltight flange with radial shaft sealing ring3 = anthracite, standard paint finish5 = anthracite, standard paint finish, oiltight flange with radial shaft sealing ring6 = anthracite, special paint finish8 = anthracite, special paint finish, oiltight flange with radial shaft sealing ring
1) Not for every shaft height2) Version for increased maximum speed only in conjunction with vibration severity level SR.
Option not possible for: – prepared for mounting a ZF gearbox– shaft seal
Motor Description
1.4 Order number
1PH7/1-18 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Shaft Heights 100 to 160, core versions
Degree of protection0 = IP55; fan IP54
Rated speed 1)
D = 1000 RPMF = 1500 RPMG = 2000 RPM
. 0 .
Induction motor
– N.
Encoder systemN = with optical sin/cos incremental encoder
– 0.
Size
Type of construction2 = IM B5 (IM V1, IM V3), standard hoisting concept (shaft heights 100 and 132)3 = IM B35 (IM V15, IM V36) (shaft height 160)
1 P H 7 . . C . 0
Terminal box arrangement/cable outlet direction0 = top/right
Bearing design, vibration severity, shaft and flange accuracy
Shaft version; coolingShaft Air flow direction Discharge direction
A = key and half-key balancing DE –> NDE axialJ = smooth shaft DE –> NDE axial
Bearing design Vibration severity level Shaft/flange accuracyC = coupling/belt out-drive S R
Separately-driven fan, 3-ph. 400 V AC/50 Hz or 3-ph. 480 V AC/60 Hz2 = with separately-driven fan, PG cable entry7 = with separately-driven fan, metric cable entry according to EN 50262
1) Not for every shaft height
Motor Description
1.4 Order number
1PH7/1-19 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Shaft heights 180 to 225
Degree of protection; paint finish0 = IP 55; with primer, without paint finish2 = IP 55 prepared for mounting a ZF gearbox 4); with primer, without paint finish
Rated speed 5)
T= 500 RPM C = 700 RPMD = 1000 RPM E = 1250 RPMF = 1500 RPM L = 2500 RPM
Bearing design Vibr. severity level Shaft flange accuracyA = coupling out-drive R NB = coupling out-drive R RC = coupling out-drive S RD = coupling out-drive SR RE = belt out-drive R NF = belt out-drive R RG= belt out-drive with increased cantilever force 8) R NH= belt out-drive with increased cantilever force 8) R RJ= coupling out-drive (only SH 180) 6) S R
. . .Induction motor
– N.
Encoder systemN = with optical sin/cos incremental encoder
– 0.
Size
Type of construction 0 = IM B3, standard hoisting concept 1 = IM B3, hoisting concept for vertical types of construction2)
3 = IM B35, standard hoisting concept 5 = IM B35, hoisting concept for vertical types of construction
1 P H 7 . . . . .
Terminal box arrangement/outlet direction1) 3)
0 = top/right 1= top/DE2 = top/NDE3 = top/left
Bearing design, vibration severity, shaft and flange accuracy
Shaft version; coolingShaft Air flow direction Discharge direction 3)
A key and half-key balancing DE –> NDE rightB 7) key and half-key balancing NDE –> DE axialC key and full–key balancing DE –> NDE rightD 7) key and full-key balancing NDE –> DE axialJ smooth shaft DE –> NDE rightK 7) smooth shaft NDE –> DE axial
Separately-driven fan, 3-ph. 400 V AC/50 Hz or 3-ph. 480 V AC/60 Hz2 = with separately-driven fan, PG cable entry7 = with separately-driven fan, metric cable entry according to EN 50262
1) Signal connector outlet, shifted through 180°2) Not IM V6 (shaft facing upwards)3) When viewing the drive end4) Only in conjunction with type of construction IM B35 and IM V15, bearing designs for coupling out-drive,
vibration severity level R, shaft and flange accuracy R, key and full-key balancing5) Not for every shaft height6) Version for increased max. speed (nmax=7000 RPM); not for mounted gearbox7) The motor is longer (refer to the dimension drawings)8) nmax=4500 for SH 225
Motor Description
1.5 Rating plate data
1PH7/1-20 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
1.5 Rating plate data
3 mot. 1PH7 186-2ND030BC0 No N– R71128873010001 / 2003
IM B35 IP 55 Th.Cl. F
V A kW cosϕ Hz RPM
MADE IN GERMANY D–90441 Nuremberg
Gew./WT. 460 kg
340 Y 116 51 0.81 34 1000390 Y 116 58 0.81 39 1150
EN/EC 60034-1 max 5000 RPM
KTY84ENCODER_D01_2048_SR
13
1
2 3
4 5 6
7
8
1011
1214
15
460 Y 114 67 0.79 46 1350
9
Fig. 1-2 Rating plate (example for 1PH7186)
Table 1-3 Description of the rating plate data
Item Description/technical data
1 Motor type: Induction motor
2 Type of construction
3 Degree of protection
4 Rated voltage [V] and winding configuration
5 Rated current [A]
6 Rated power [kW]
7 Standards and regulations
8 Code, encoder type, temperature sensor
9 ID No., serial number
10 Motor weight [kg]
11 Temperature class
12 Rated speed [RPM]
13 Rated frequency [Hz]
14 Power factor [cosϕ]
15 Maximum speed [RPM]
Motor Description
1.6 Cooling
1PH7/1-21 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
1.6 Cooling
Note
1PH7 main spindle motors are force-ventilated. When mounting the motors, itmust be ensured that the motor can be well ventilated. This is especially true whenmounting the motors in enclosures. It is not permissible that the hot discharged airis drawn in again.
!Caution
Temperatures of over 100 °C can occur at the surface of the motor.
Mounting a fan and minimum clearance to the customers mounted parts andcomponents
The fan is axially mounted at the NDE.
The minimum clearance to the customer’s mounted parts and components and theair discharge opening as well as the minimum clearance S between the air intakeand air discharge openings and adjacent components must be observed and main-tained (refer to Table 1-4).
Table 1-4 Minimum clearances
Shaft height[mm]
Clearance to the customer’smounted parts and compo-
nents [mm]
Clearance S [mm]
100 30 30
132 60 60
160 80 80
180 100 80
225 100 80
For air-cooled motors, the cooling ducts, through which the ambient air flows,should be regularly cleaned depending on the degree of pollution at the mountinglocation. These air ducts can be cleaned, e.g. using dry, oil-free compressed air.For totally-enclosed fan-cooled motors, the inside of the motor can be cleanedduring standard service/maintenance intervals.
Air flow direction
Standard: from DE to NDEOption: from NDE to DE (not for core types)
for SH 180 and SH 225, the motor length changes (dimension drawing)
Air discharge
SH 100 to 160: axialSH 180 and 225: radial to the right (when viewing the DE); the fan can be
rotated through 4 x 90°
Motor Description
1.6 Cooling
1PH7/1-22 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Ambient/cooling medium temperature
Operation: T = –15 °C to +40 °C (without any restrictions)Bearing design: T = –20 °C to +70 °C
All of the Catalog data refer to an ambient temperature of 40 °C, mounted so thatthe motors are not thermally insulated and an installation altitude up to 1000 mabove sea level.
If the ambient conditions differ (ambient temperature > 40 °C or the installation alti-tude > 1000 m above sea level), the permissible torques and power ratings mustbe reduced (refer to the factors from Table 1-5).
Ambient temperatures and installation altitudes are rounded-off to 5 °C or 500 m.
Table 1-5 Factors for reducing the torque/power acc. to EN 60034-6
Installationheight above
Ambient temperature in °Cheight above
sea level 40 45 50
1000 1.00 0.96 0.92
1500 0.97 0.93 0.89
2000 0.94 0.90 0.86
2500 0.90 0.86 0.83
3000 0.86 0.82 0.79
3500 0.82 0.79 0.75
4000 0.77 0.74 0.71
Air flow
Table 1-6 Air flow for 1PH7 motors
Shaft height [mm] Voltage [V] Frequency [Hz] Approx. air flow [l/sec]
400 50 40
100 400 / 480 60 50
400 50 100
132 400 / 480 60 130
400 50 150
160 400 / 480 60 190
400 50 190
180 400 / 480 60 190
400 50 360
225 400 / 480 60 360
Motor Description
1.7 Electrical connections
1PH7/1-23 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
1.7 Electrical connections
1.7.1 Connecting-up induction motors
Note
The motors can be fed from a DC link voltage of up to 700 V DC. For shaft heights180 and 225, the appropriate version must be selected.
Table 1-7 Overview, connection system for 1PH7 motors
SH Numberof mainterminals
Max. cross-section that can beconnected
Terminal stripfor temperaturesensor
PE connection size/cable lug width
100 6 x M5 25 mm2 3 terminals M5/9 mm
132 6 x M6 35 mm2 with cable lug connection 3 terminals M6/15 mm
160 6 x M6 50 mm2 with cable lug connection 3 terminals M6/18 mm 2)
180 3 x M12 2 x 50 mm2 with cable lug connection 4 terminals Without cable lug using aterminal clamp1)
225 3 x M12 2 x 50 mm2 with cable lug connection 4 terminals Without cable lug using aterminal clamp1)
Power cable
The power cables for 1PH motors are selected according to the rated motor cur-rent IN at +40 °C according to Table 1-8.
!Caution
Carefully observe the current which the motor draws for your particular application!Adequately dimension the connecting cables according to IEC 60204-1.
Note
The cables are available in a UL version or for higher mechanical requirements.
Technical data, refer to Catalog, Chapter “Connection System”.
1) Cable cross-section, corresponding to the line conductor cross-section2) Cable lug acc. to DIN 46234
Motor Description
1.7 Electrical connections
1PH7/1-24 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Motor SIMODRIVEConductor end sleeves acc. to DIN 46228
1/U
2/V
6/W
U
V
W
Fig. 1-3 Power cable
1.7.2 Connecting-up information
Note
The overall system compatibility is only guaranteed when using shielded powercables.
Shields must be incorporated in the protective grounding concept. Protectiveground should be connected to conductors that are open-circuit and that are notbeing used and also electrical cables that can be touched. If the brake feedercables in the SIEMENS cable accessories are not used, then the brake conductorcores and shields must be connected to the cabinet ground (open-circuit cablesresult in capacitive charges!).
!Warning
Before carrying-out any work on the induction motor, please ensure that it ispowered-down and the system is locked-out so that the motor cannot re-start!
Please observe the rating plate data and circuit diagram in the terminal box.Appropriately dimension the connecting cables.
Twisted or three-core cables with additional ground conductor should be usedas motor feeder cables. The insulation should be removed from the ends of theconductors so that the remaining insulation extends up to the cable lug or termi-nal.
The connecting cables should be freely arranged in the terminal box so that theprotective conductor has an overlength and the cable conductor insulation can-not be damaged. Connecting cables should be appropriately strain relieved.
Please ensure that the following minimum air distances are maintained: Supplyvoltages up to 500 V: Minimum air distance 4.5 mm
After connecting-up, it should be checked, whether
– the inside of the terminal box is clean and free of any cable pieces,
– all of the terminal screws are screwed tightly,
– minimum air clearances are maintained,
Motor Description
1.7 Electrical connections
1PH7/1-25 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
– the cable entries are reliably sealed,
– unused cable entry glands are closed and the caps are tightly screwed inand
– all of the sealing surfaces are in a good condition.
Press drives
Note
For press drives with acceleration rates > 2 g, special measures are required.Please contact your local Siemens office.
Cross-sections
When connecting cables to the terminal board, the connecting cables must bedimensioned corresponding to the rated current and the size of the cable lugs mustmatch the dimensions of the terminal studs.
Table 1-8 Current load capability acc. to EN 60204-1 for PVC-insulated cables withcopper conductors at a 40C ambient temperature and routing type C (cablesand conductors retained to panels/walls and cable ducts)
Irms at +40 °C [A] Required cross-section[mm2]
Comments
11.7 1 Correction factors with ref-
15.2 1.5 erence to ambient tempera-ture and routing type are
21 2.5ture and routing type arespecified in EN60204-1.
28 4specified in EN60204-1.
36 6
50 10
66 16
84 25
104 35
123 50
155 70
192 95
221 120
Motor Description
1.7 Electrical connections
1PH7/1-26 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Assignment, terminal boxes and max. cross-section
Table 1-9 Terminal box assignment, max. cable cross-sections that can be connected
Shaftheight
Motor type Terminal box type Number of main terminals
Max. connectable cross-section per terminal [mm2]
100 1PH710-2 integrated 6 x M5 25
132 1PH713-2 integrated 6 x M6 35
160 1PH716-2 integrated 6 x M6 50
1PH7184-2 1XB7322 3 x M12 2 x 50
1PH7184-2B 1XB7322 3 x M12 2 x 50
1PH7184-2D 1XB7322 3 x M12 2 x 50
1801PH7184-2F 1XB7422 3 x M12 2 x 70
1801PH7184-2L 1XB7422 3 x M12 2 x 70
1PH7186-2E 1XB7322 3 x M12 2 x 50
1PH7186-2D 1XB7322 3 x M12 2 x 50
1PH7186-2T 1XB7322 3 x M12 2 x 50
1PH7224-2C 1XB7322 3 x M12 2 x 50
225 1PH7224-2D 1XB7322 3 x M12 2 x 50
1PH7224-2F 1XB7322 3 x M12 2 x 50
1.7.3 Supply data for separately-driven fans
Table 1-10 Supply data for separately-driven fans
Shaft height [mm] Air flow direction Max. current drain at
400 V/50 Hz
(10%)
400 V/60 Hz
(10%)
480 V/60 Hz(+5%, –10%)
DE ––> NDE 0.20 0.13 0.20
100 NDE ––> DE 0.19 0.13 0.18
DE ––> NDE 0.37 0.24 0.33
132 NDE ––> DE 0.35 0.24 0.32
DE ––> NDE 0.30 0.33 0.34
160 NDE ––> DE 0.29 0.31 0.33
DE ––> NDE 0.8 1.1 1.1
180 NDE ––> DE 0.8 1.1 1.1
DE ––> NDE 2.8 2.8 2.8
225 NDE ––> DE 1.9 2.2 2.2
Motor Description
1.7 Electrical connections
1PH7/1-27 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
In order to minimize the motor noise at standstill, the fan can be shut down atn < nmin and when the controller enable has been withdrawn.
Recommended connection
The fan is connected through the terminal box. The fan should be operatedthrough motor protection circuit-breakers.
L1 PE
U1 V1 W1
L3L2
NESIMODRIVE
Additional fans
M
>
Fans
The motor protectioncircuit-breaker is notincluded in the motorscope
Fig. 1-4 Recommended connection
Example of a fan control
PLC
Inact I<nmin
Enable controller
K1
3-ph. 400 V AC, 50 Hz
M3 ~
K1
> (dependent onthe application)
Fan motor
Tolerances refer to Table 1-10
3-ph. 400 V AC, 60 Hz
3-ph. 480 V AC, 60 Hz
Fig. 1-5 Example, fan control
Motor Description
1.8 Bearing design
1PH7/1-28 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
1.8 Bearing design
Out-drive types and bearing versions
1PH7 induction motors are suitable for coupling and belt out-drives. The bearingversions and their applications are summarized in Table 1-11.
Table 1-11 Out-drive type with the appropriate bearing version
Applications Bearing version
Coupling out-drive
Planetary gearLow cantilever forces
SH 100 to SH 160
Deep-groove ball bearings
Deep-groove ball bearings
SH 180SH 225
Belt out-drive with normalcantilever force
Pinion out-drive with straight teeth
Belt out-drive withincreased cantilever force
Deep-groove ballbearings
Deep-grooveball bearings
Deep-groove ball bearings
Cylindrical-roller bearing
SH 180SH 225
Bearing change intervals (tLW) SH 100 to 225
The values specified in Tables 1-12 and 1-13 are valid for the following conditions:
Coupling and belt out-drives
Horizontal mounting
The bearing change intervals are reduced for unfavorable operating conditions,for example
– Average speed > as specified in Table 1-12
– Vibration and shock load
– Frequent reversing operation
Motor Description
1.8 Bearing design
1PH7/1-29 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 1-12 Recommended bearing change intervals
Type Average operating speed1)
nm [RPM]Continuous speed
ns1 [RPM]
1PH710 nm 2500 2500 < nm < 6000 ns1 5500
1PH713 nm 2000 2000 < nm < 5500 ns1 4500
1PH716 nm 1500 1500 < nm < 4500 ns1 3700
1PH718 nm 1500 1500 < nm < 4000 ns1 3500 2)
1PH7224 nm 1500 1500 < nm < 3500 ns1 3100 2)
tLW [h] 16000 8000 8000
Table 1-13 Recommended bearing change intervals for increased maximum speeds
Type Average operating speednm [RPM]
Continuous speedns1 [RPM]
1PH710 8000 nm 12000 ns1 10000
1PH713 6000 nm 10000 ns1 8500
1PH716 5000 nm 8000 ns1 7000
1PH718 1500 nm 7000 ns1 4500
1PH7224 1500 nm 5500 ns1 3600
tLW [h] 8000 8000
1) A speed duty cycle with low speeds and standstill periods is assumed.2) For increased cantilever force: SH 180: ns1 3000 RPM
SH 225: ns1 2700 RPM
Motor Description
1.8 Bearing design
1PH7/1-30 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Continuous speed nS1
The max. permissible continuous operating speed nS1 depends on the bearingsand the shaft height (refer to Table 1-14).
Table 1-14 Assignment, max. speed to shaft height and bearing design
SH[mm]
Coupling out-drive, belt out-drive
[RPM]
Belt out-drive with increased cantilever
force[RPM]
Increased max. speed [RPM]
nmax1) ns1
2) nmax1) ns1
2) nmax1) ns1
2)
100 9000 5500 – – 12000 10000
132 8000 4500 – – 10000 8500
160 6500 3700 – – 8000 7000
180 5000 3500 5000 3000 70003) 45003)
225 4500 3100 4500 2700 55003) 36003)
Important
If the motor is operated at speeds between ns1 and nmax, then a speed duty cycleis assumed that has time components with low speed and standstill in order thatthe lubricant being used can re-generate.
1) Mechanical limiting speed (permissible for 10 min. cycle with: 3 min nmax, 6 min 2/3 nmax, 1 min stand-still)
2) Max. continuous operating speed3) Only coupling out-drive is permissible
Motor Description
1.9 Vibration severity limit values
1PH7/1-31 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
1.9 Vibration severity limit values
The vibration severity limit values are identical within the 1PH series!
The diagrams are included in the Planning Guide, “General Part for InductionMotors”.
Note
A foot support is required for the following motors in order to maintain the vibrationseverity limit values:
SH 160 to SH 225 for type of construction IM B35
Permissible induced vibrations
In order to ensure perfect functioning and a long lifetime, the vibration values,specified in the following table should not be exceeded at the motor.
Table 1-15 Vibration values
Vibrationfrequency
Vibration values for shaft height
SH 100 to 160 SH 180 and 225
< 6.3 Hz Vibration travel s [mm] 0.16 0.25
6.3...63 Hz Vibration velocity vaM [mm/s] 4.5 7.1
> 63 Hz Vibration acceleration a [m/s2] 2.55 4.0
Motor Description
1.10 Mounting
1PH7/1-32 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
1.10 Mounting
Mounting instructions
!Warning
These motors are electrically operated. When electrical equipment is operated, certainparts of these motors are at hazardous voltage levels. If this motor is not correctlyhandled/operated, this can result in death or severe bodily injury as well as significantmaterial damage. Please carefully observe the warning information in this section anon the product itself.
Only qualified personnel may carry-out service or repair work on this motor.
Before starting any work, the motor must be disconnected from the line supplyand grounded.
Only spare parts, certified by the manufacturer, may be used.
The specified service/maintenance intervals and measures as well as theprocedures for repair and replacement must be carefully maintained andobserved.
!Warning
When transporting the motors, use all of the hoisting lugs provided!
A suitable crane/lifting device must be used. Incorrect execution, unsuitable ordamaged equipment and resources can result in injury and material damage.The hoisting and transport equipment as well as the load suspensionequipment must be in full compliance with the appropriate regulations.
All work should be undertaken with the system in a no-voltage condition!
The motor should be connected up according to the circuit diagram provided.
In the terminal box it must be ensure that the connecting cables are insulatedwith respect to the terminal board cover.
After the motor has been installed, the brake (if one is used) must be checkedto ensure that it is functioning perfectly!
Note
For SH 180 and 225, flange mounting is only possible using studs and nuts.Clearance M1 for threading the nut between the motor flange and motor frameacc. to DIN 42948 (refer to Table 1-16).
Motor Description
1.10 Mounting
1PH7/1-33 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 1-16 Flange mounting with studs and nuts
Shaft height M1 [mm]
100 44
132 501PH7
160 651PH7
180 36M1
225 40M1
Cable outlet NDE
Signal connector
Power connection
Power connection
(angled element is included in the scope ofsupply)
SH 180 to 225: Via terminal box, depending on the version ordered
Terminal boxTerminal box
Signal connector
SH 100 SH 132 to 160
Fig. 1-6 Cable outlet
Mounting information and instructions
The following mounting instructions must be carefully observed:
For high-speed machines, we recommend that the complete unit is dynamicallybalanced after couplings or belt pulleys have been mounted.
Use suitable equipment when mounting drive elements. Use the thread at theshaft end.
Do not apply any blows or axial pressure to the shaft end.
Especially for high-speed motors with flange mounting, it is important that themounting is stiff in order to locate any resonant frequency as high as possibleso that it remains above the maximum rotational frequency.
Motor Description
1.10 Mounting
1PH7/1-34 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
!Caution
Liquid must be prevented from collecting at the flange – both for vertical as well ashorizontal mounting positions. If liquid is not prevented from collecting, then it canbe assumed that it will enter the inside of the motor.
Notice
1PH7 main spindle motors are force-ventilated. When mounting the motors, itmust be ensured that the motor can be well ventilated. This is especially true whenmounting the motors in enclosures. It is not permissible that the hot discharged airis drawn in again.
Notice
Motors must be carefully mounted on adequately stiff foundations or bedplates.Additional elasticities of the foundation/bedplates can result in resonance effects ofthe natural frequency at the operating speed and therefore result in inadmissiblyhigh vibration values.
The magnitude of the natural frequency when the motor is mounted depends onvarious factors and can be influenced by the following points:
Mechanical transmission elements (gearboxes, belts, couplings, pinions, etc.)
Stiffness of the machine design to which the motor is mounted
Stiffness of the motor in the area around the foot or customer flange
Motor weight
Machine weight and the weight of the mechanical system in the vicinity of themotor
Damping properties of the motor and the machine tool
Mounting type, mounting position (IM B3; IM B5; IM B35; IM V1; etc.)
Motor weight distribution, i.e. length, shaft height
After the motors have been mounted, the caps for the screw holes in the mountingfeet must be re-located.
1PH7/2-35 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Technical Data and Characteristics
2.1 Technical data
For a description of the codes used in the table header, refer to Table 2-3. s with agray background are core types additional information on the order designation(MLFB), refer to Section 1.4 or Catalog NC 60.
Table 2-1 Technical data 1PH7
Order designation
1PH7
PN
[kW]
nN
[RPM]
nmax 1)
[RPM]
MN
[Nm]
IN
[A]
Increasednmax
RPM
I0
A
UN
V
J
[kgm2]
Shaft height 100 mm
1PH7101-NF 3.7 1500 9000 24 10 12000 5.9 350 0.017
1PH7103-ND 3.7 1000 9000 35 10 12000 4.8 343 0.017
1PH7103-NF 5.5 1500 9000 35 13 12000 5.4 350 0.017
1PH7103-NG 7.0 2000 9000 33 17.5 12000 8.3 343 0.017
1PH7105-NF 7.0 1500 9000 45 17.5 12000 9.4 346 0.029
1PH7107-ND 6.25 1000 9000 60 17.5 12000 8.9 319 0.029
1PH7107-NF 9.0 1500 9000 57 23.5 12000 11.0 336 0.029
1PH7107-NG 10.5 2000 9000 50 26 12000 12.2 350 0.029
Shaft height 132 mm
1PH7131-NF 11 1500 8000 70 24 10000 8.4 350 0.076
1PH7133-ND 12.0 1000 8000 115 30 10000 12.7 336 0.076
1PH7133-NF 15 1500 8000 95 34 10000 14.0 346 0.076
1PH7133-NG 20.0 2000 8000 95 45 10000 17.4 350 0.076
1PH7135-NF 18.5 1500 8000 118 42 10000 17.0 350 0.109
1PH7137-ND 17.0 1000 8000 162 43 10000 18.5 322 0.109
1PH7137-NF 22.0 1500 8000 140 57 10000 22.8 308 0.109
1PH7137-NG 28.0 2000 8000 134 60 10000 21.4 350 0.109
2
Technical Data and Characteristics
2.1 Technical data
1PH7/2-36 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-1 Technical data 1PH7, continued
Order designation
1PH7
J
[kgm2]
UN
V
I0
A
Increasednmax
RPM
IN
[A]
MN
[Nm]
nmax 1)
[RPM]
nN
[RPM]
PN
[kW]
Shaft height 160 mm
1PH7163-NB 12.0 500 6500 229 30 8000 12.5 339 0.19
1PH7163-ND 22.0 1000 6500 210 55 8000 24.1 315 0.19
1PH7163-NF 30.0 1500 6500 191 72 8000 30.1 319 0.19
1PH7163-NG 36.0 2000 6500 172 85 8000 37.2 333 0.19
1PH7167-NB 16.0 500 6500 306 37 8000 12.7 350 0.23
1PH7167-ND 28.0 1000 6500 267 71 8000 33.1 312 0.23
1PH7167-NF 37.0 1500 6500 236 82 8000 31.9 350 0.23
1PH7167-NG 41.0 2000 6500 196 89 8000 39.7 350 0.23
Shaft height 180 mm
1PH7184-NT 21.5 500 5000 410 76 7000 40 235 0.5
1PH7184-ND 39 1000 5000 372 90 7000 42 335 0.5
1PH7184-NE 40.0 1250 5000 305 85 7000 46.2 380 0.5
1PH7184-NF 51 1500 5000 325 120 7000 64 335 0.5
1PH7184-NL 78 2500 5000 298 171 7000 77 340 0.5
1PH7186-NT 29.6 500 5000 565 106 7000 56 228 0.67
1PH7186-ND 51 1000 5000 487 116 7000 58 340 0.67
1PH7186-NE 60.0 1250 5000 458 117 7000 63 400 0.67
Shaft height 225 mm 2)
1PH7224-NC 55.0 700 4500 750 114 5500 63.5 380 1.48
1PH7224-ND 71.0 1000 4500 678 161 5500 78.5 335 1.48
1PH7224-NF 100.0 1500 4500 636 185 5500 73 385 1.48
____________1) For continuous operation (with 30% nmax, 60% nmax, 10 % standstill) for a load duty cycle of 10 min.,
max. continuous speed and bearing change intervals, refer to Section 1.42) For bearings for increased cantilever force nmax=4500 RPM
Technical Data and Characteristics
2.1 Technical data
1PH7/2-37 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-2 Technical data - drive converter assignment 1PH7
85/1
10/1
27
85/1
10/1
27
85/1
10/1
27
85/1
10/1
27
85/1
10/1
27
85/1
10/1
27
85/1
10/1
2711
8
147
110
103
126
100
90
4330.5
56
106
857635
26.5
50 36.5
21.5
40 29.6
306
565
411
4500
5000
6500
8000
9000
1250
1000
1500
186–
_NT
_
184–
_NE
_
184–
_NT
_
S6–
25 %
S6–
40 %
S6–
60 %
S1
S6–
25 %
S6–
40 %
S6–
60 %
S1
S6–
25 %
S6–
40 %
S6–
60 %
S1
NM
oto
r ty
pe
1PH
7...
nM
1)max
nN
Pacc.
to E
N 6
0034
–1[k
W]
Rat
ed m
oto
r p
ow
er
N
Rat
ed m
oto
r cu
rren
t fo
r
I[A
]N
Dri
ve c
on
vert
er m
od
ule
for
73.7
6.25
9
4.5
8.5
20.5
24 33 60 57
3730
191
236
37
1610.5
46
678
750
4525
222
149
102
11.5
6.25
11.5
20.5
27.5
20.5
17
36
120
134
715519
310
575
190
117
164
8866.4
–98
30 7243 60
29
5.25
–
8.8
10
73
54 67
5060
36 86 97
56 68
87 115
24/3
2/32
30/4
0/51
45/6
0/76
45/6
0/76
60/8
0/10
2
–15 26 26.5
5037
23.5
12.5
100
41
17.5
17.5
10 23.5
34
101–
_NF
_
133–
_ND
_
103–
_NG
_
107–
_ND
_10
7–_N
F_
133–
_NF
_
137–
_ND
_
137–
_NG
_
163–
_NB
_
163–
_NF
_
167–
_NF
_
224–
_NC
_22
4–_N
D_
115
95 162
134
229
12 15 6012
7.5
11 15 18.5
35 15
22 27 50
30 82
13 18.5
23 43 18 56
135
23 31 43 49 42–
24/3
2/32
24/3
2/32
24/3
2/32
30/4
0/51
24/3
2/32
24/3
2/32
24/3
2/32
30/4
0/51
24/3
2/32
24/3
2/32
24/3
2/32
24/3
2/32
24/3
2/32
24/3
2/32
30/4
0/51
45/6
0/76
45/6
0/76
85/1
10/1
27
45/6
0/76
45/6
0/76
45/6
0/76
85/1
10/1
27
45/6
0/76
45/6
0/76
60/8
0/10
2
45/6
0/76
85/1
10/1
27
30/4
0/51
85/1
10/1
27
85/1
10/1
27
45/6
0/76
85/1
10/1
27
85/1
10/1
27
45/6
0/76
85/1
10/1
27
120/
150/
193
120/
150/
193
–
120/
150/
193
120/
150/
193
200/
250/
257
120/
150/
193
120/
150/
193
200/
250/
257
120/
150/
193
120/
150/
193
120/
150/
193
150
135
8012
071
28
458
1250
186–
_NE
_
[A]
1500
1000
2000
500
1500
1500
500
500
700
1000
1500
2941
131–
_NF
_70
1113
.520
2416
.534
24/3
2/32
30/4
0/51
30/4
0/51
30/4
0/51
2000
1000
1500
120/
150/
193
120/
150/
193
120/
150/
193
–5466 10
62) 2) 2) 2)
2)
186
127
193
2) 2) 2)
– – – –
3.7
4.5
35–
11.5
5.25
–13
1010
3–_N
D_
24/3
2/32
24/3
2/32
24/3
2/32
–10
005.
56.
735
9.0
167.
720
.518
1310
3–_N
F_
24/3
2/32
24/3
2/32
24/3
2/32
24/3
2/32
1500
745
12.5
2110
2817
.510
5–_N
F_
8.5
23.5
24/3
2/32
24/3
2/32
24/3
2/32
24/3
2/32
1500
10.5
5017
.528
.530
/40/
5130
/40/
5138
2610
7–_N
G_
12.5
14.5
3330
/40/
5130
/40/
5120
00
7345
/60/
7654
4513
3–_N
G_
9520
2536
3063
60/8
0/10
260
/80/
102
60/8
0/10
220
0023
2818
.542
3350
5867
45/6
0/76
135–
_NF
_11
845
/60/
7645
/60/
7660
/80/
102
1500
5768
7960
/80/
102
9213
7–_N
F_
140
27.5
4033
60/8
0/10
260
/80/
102
85/1
10/1
2722
1500
5540
6516
3–_N
D_
210
2227
3377
9360
/80/
102
60/8
0/10
260
/80/
102
85/1
10/1
2710
00
4436
172
5211
413
385
6210
016
3–_N
G_
85/1
10/1
2785
/110
/127
120/
150/
193
2000
267
2834
.511
750
8510
016
7–_N
D_
7142
85/1
10/1
2785
/110
/127
85/1
10/1
2712
0/15
0/19
310
0030
616
19.5
––
4453
3724
45/6
0/76
45/6
0/76
45/6
0/76
–50
016
7–_N
B_
120/
150/
193
196
4151
145
7410
612
416
7–_N
G_
8961
120/
150/
193
120/
150/
193
120/
150/
193
120/
150/
193
2000
–12
610
658
90–
4839
372
184–
_ND
_10
00
–17
414
981
120
–68
5132
518
4–_N
F_
1500
–23
720
411
517
2–
9778
298
184–
_NL_
2500
637
248
100
136
230
188
126
141
257
224–
_NF
_20
0/25
0/25
720
0/25
0/19
320
0/25
0/25
715
002)
2)–
5120
0/25
0/25
716
414
177
118
6548
710
0018
6–_N
D_
––
–
1) Max. speed for S1 and S6 power, refer to P–n diagram, Section 2.12) at S6–16%
acc.
to E
N 6
0034
–1ac
c. to
EN
600
34–1
Du
ty ty
pe
Du
ty ty
pe
Du
ty ty
pe
120/
150/
193
200/
250/
257
120/
150/
193
120/
150/
193
– –
120/
150/
193
200/
250/
257
200/
250/
257
120/
150/
193
200/
250/
257
200/
250/
257
200/
250/
257
200/
250/
193
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-38 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
2.2 Power-speed and torque-speed diagrams
AC s for main spindle drives must be continually cooled in operation, independentof the operating mode/duty type.
Notes on the diagrams
The dotted lines in the diagrams indicate the power limit of the particular drive con-verter for the specified AC motor. The power module is specified.
The power values for duty type S6 with a relative power-on duration of 25 %, 40 %and 60 % are specified (load duty cycle, 10 min).
Speeds designated with1) are optional.
Table 2-3 Explanation of the codes used
Abbreviation Units Description
PN kW Rated power
nN RPM Rated speed
MN Nm Rated torque
IN A Rated current
nmax RPM Maximum rotational speed
I0 A Standstill current
UN V Rated voltage
Tth min Thermal time constant
J kgm2 Moment of inertia
m kg Weight
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-39 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-4 Induction motor 1PH7101-NF
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth
[min]J
[kgm2]m
[kg]
3.7 1500 24 10 9000 20 0.017 40
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
5.5
6.0
6.5
7.0
0 1000 2000 3000 4000 5000 6000 7000 8000 9000
S1 (10.0 A)
S6–60% (11.5 A)
S6–40% (12.5 A)
S6–25% (15.0 A)
continuous briefly
0
5
10
15
20
25
30
35
40
45
50
0 1000 2000 3000 4000 5000 6000 7000 8000 9000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (24 Nm, 10.0 A)
S6–60% (29 Nm, 11.5 A)
S6–40% (33 Nm, 12.5 A)
S6–25% (40 Nm, 15.0 A)
continuous briefly
Fig. 2-1 1PH7101-NF
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-40 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-5 Induction motor 1PH7101-NF-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
3.7 1500 24 10 12000 20 0.017 40
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
5.5
6.0
6.5
7.0
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 12000
S1 (10.0 A)
S6–60% (11.5 A)
S6–40% (12.5 A)
S6–25% (15.0 A)
continuous briefly
0
5
10
15
20
25
30
35
40
45
50
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 12000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (24 Nm, 10.0 A)
S6–60% (29 Nm, 11.5 A)
S6–40% (33 Nm, 12.5 A)
S6–25% (40 Nm, 15.0 A)
continuous briefly
Fig. 2-2 1PH7101-NF-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-41 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-6 Induction motor 1PH7103-ND
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
3.7 1000 35 10 9000 20 0.017 40
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
5.5
6.0
0 1000 2000 3000 4000 5000 6000 7000 8000 9000
S1 (10.0 A)
S6–60% (11.5 A)
S6–40% (13.0 A)
continuous briefly
0
5
10
15
20
25
30
35
40
45
50
55
0 1000 2000 3000 4000 5000 6000 7000 8000 9000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (35 Nm, 10.0 A)
S6–60% (43 Nm, 11.5 A)
S6–40% (50 Nm, 13.0 A)
continuous briefly
Fig. 2-3 1PH7103-ND
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-42 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-7 Induction motor 1PH7103-ND-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
3.7 1000 35 10 12000 20 0.017 40
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
5.5
6.0
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 12000
S1 (13.0 A)
S6–60% (16.0 A)
S6–40% (18.0 A)
continuous briefly
0
5
10
15
20
25
30
35
40
45
50
55
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 12000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (35 Nm, 10.0 A)
S6–60% (43 Nm, 11.5 A)
S6–40% (50 Nm, 13.0 A)
continuous briefly
Fig. 2-4 1PH7103-ND-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-43 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-8 Induction motor 1PH7103-NF
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
5.5 1500 35 13 9000 20 0.017 40
0.0
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
9.0
10.0
0 1000 2000 3000 4000 5000 6000 7000 8000 9000
S1 (13.0 A)
S6–60% (16.0 A)
S6–40% (18.0 A)
S6–25% (20.5 A)
continuous briefly
0
5
10
15
20
25
30
35
40
45
50
55
60
65
0 1000 2000 3000 4000 5000 6000 7000 8000 9000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (35 Nm, 13.0 A)
S6–60% (43 Nm, 16.0 A)
S6–40% (49 Nm, 18.0 A)
S6–25% (57 Nm, 20.5 A)
continuous briefly
Fig. 2-5 1PH7103-NF
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-44 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-9 Induction motor 1PH7103-NF-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
5.5 1500 35 13 12000 20 0.017 40
0
1
2
3
4
5
6
7
8
9
10
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 12000
S1 (13.0 A)
S6–60% (16.0 A)
S6–40% (18.0 A)
S6–25% (20.5 A)
continuous briefly
0
5
10
15
20
25
30
35
40
45
50
55
60
65
0 2000 4000 6000 8000 10000 12000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (35 Nm, 13.0 A)
S6–60% (43 Nm, 16.0 A)
S6–40% (49 Nm, 18.0 A)
S6–25% (57 Nm, 20.5 A)
continuous briefly
Fig. 2-6 1PH7103–NF-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-45 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-10 Induction motor 1PH7103-NG
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
7 2000 33 17.5 9000 20 0.017 40
0
1
2
3
4
5
6
7
8
9
10
11
12
13
0 1000 2000 3000 4000 5000 6000 7000 8000 9000
S1 (17.5 A)
S6–60% (20.5 A)
S6–40% (23.5 A)
S6–25% (26.0 A)
continuous briefly
0
5
10
15
20
25
30
35
40
45
50
55
60
65
70
0 1000 2000 3000 4000 5000 6000 7000 8000 9000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (33 Nm, 17.5 A)
S6–60% (41 Nm, 20.5 A)
S6–40% (48 Nm, 23.5 A)
S6–25% (55 Nm, 26.0 A)
continuous briefly
Fig. 2-7 1PH7103-NG
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-46 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-11 Induction motor 1PH7103-NG-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
7 2000 33 17.5 12000 20 0.017 40
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 12000
S1 (17.5 A)
S6–60% (20.5 A)
S6–40% (23.5 A)
S6–25% (26.0 A)
0
1
2
3
4
5
6
7
8
9
10
11
12
13
continuous briefly
0
10
20
30
40
50
60
70
80
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 12000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (33 Nm, 17.5 A)
S6–60% (41 Nm, 20.5 A)
S6–40% (48 Nm, 23.5 A)
S6–25% (55 Nm, 26.0 A)
continuous briefly
Fig. 2-8 1PH7103-NG-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-47 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-12 Induction motor 1PH7105-NF
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
7.0 1500 45 17.5 9000 20 0.029 63
0
2
4
6
8
10
12
14
0 1000 2000 3000 4000 5000 6000 7000 8000 9000
S1 (17.5 A)
S6–60% (21.0 A)
S6–40% (23.5 A)
S6–25% (28.0 A)
continuous briefly
0
10
20
30
40
50
60
70
80
90
0 1000 2000 3000 4000 5000 6000 7000 8000 9000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (45 Nm, 17.5 A)
S6–60% (54 Nm, 21.0 A)
S6–40% (64 Nm, 23.5 A)
S6–25% (80 Nm, 28.0 A)
continuous briefly
Fig. 2-9 1PH7105-NF
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-48 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-13 Induction motor 1PH7105-NF-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
7.0 1500 45 17.5 12000 20 0.029 63
0123456789
101112131415
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 12000
S1 (17.5 A)
S6–60% (21.0 A)
S6–40% (23.5 A)
S6–25% (28.0 A)
continuous briefly
0
10
20
30
40
50
60
70
80
90
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 12000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (45 Nm, 17.5 A)
S6–60% (54 Nm, 21.0 A)
S6–40% (64 Nm, 23.5 A)
S6–25% (80 Nm, 28.0 A)
continuous briefly
Fig. 2-10 1PH7105-NF-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-49 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-14 Induction motor 1PH7107-ND
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
6.25 1000 60 17.5 9000 20 0.029 63
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
0 1000 2000 3000 4000 5000 6000 7000 8000 9000
S6–25% (26.5 A)
S6–40% (23.0 A)
S6–60% (20.5 A)
S1 (17.5 A)
continuous briefly
0
10
20
30
40
50
60
70
80
90
100
110
0 1000 2000 3000 4000 5000 6000 7000 8000 9000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (60 Nm, 17.5 A)
S6–60% (72 Nm, 20.5 A)
S6–40% (84 Nm, 23.0 A)
S6–25% (100 Nm, 26.5 A)
continuous briefly
Fig. 2-11 1PH7107-ND
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-50 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-15 Induction motor 1PH7107-ND-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
6.25 1000 60 17.5 12000 20 0.029 63
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 12000
S6–25% (26.5 A)
S6–40% (23.0 A)
S6–60% (20.5 A)
S1 (17.5 A)
continuous briefly
0
10
20
30
40
50
60
70
80
90
100
110
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 12000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (60 Nm, 17.5 A)
S6–60% (72 Nm, 20.5 A)
S6–40% (84 Nm, 23.0 A)
S6–25% (100 Nm, 26.5 A)
continuous briefly
Fig. 2-12 1PH7107-ND-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-51 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-16 Induction motor 1PH7107-NF
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
9.0 1500 57 23.5 9000 20 0.029 63
0
2
4
6
8
10
12
14
16
18
20
0 1000 2000 3000 4000 5000 6000 7000 8000 9000
S6–25% (37.0 A)
S6–40% (31.0 A)
S6–60% (27.5 A)
S1 (23.5 A)
continuous briefly
0
10
20
30
40
50
60
70
80
90
100
110
0 1000 2000 3000 4000 5000 6000 7000 8000 9000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (57 Nm, 23.5 A)
S6–60% (70 Nm, 27.5 A)
S6–40% (83 Nm, 31.0 A)
S6–25% (102 Nm, 37.0 A)
continuous briefly
Fig. 2-13 1PH7107-NF
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-52 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-17 Induction motor 1PH7107-NF-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
9.0 1500 57 23.5 12000 20 0.029 63
0
2
4
6
8
10
12
14
16
18
20
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 12000
S6–25% (37.0 A)
S6–40% (31.0 A)
S6–60% (27.5 A)
S1 (23.5 A)
continuous briefly
0
10
20
30
40
50
60
70
80
90
100
110
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 12000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (57 Nm, 23.5 A)
S6–60% (70 Nm, 27.5 A)
S6–40% (83 Nm, 31.0 A)
S6–25% (102 Nm, 37.0 A)
continuous briefly
Fig. 2-14 1PH7107-NF-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-53 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-18 Induction motor 1PH7107-NG
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
10.5 2000 50 26 9000 20 0.029 63
0
2
4
6
8
10
12
14
16
18
20
0 1000 2000 3000 4000 5000 6000 7000 8000 9000
S6-25% (38.0 A)
S6–40% (33.0 A)
S6–60% (28.5 A)
S1 (26.0 A)
continuous briefly
0
10
20
30
40
50
60
70
80
90
0 1000 2000 3000 4000 5000 6000 7000 8000 9000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (50 Nm, 26.0 A)
S6–60% (60 Nm, 28.5 A)
S6–40% (69 Nm, 33.0 A)
S6–25% (84 Nm, 38.0 A)
continuous briefly
Fig. 2-15 1PH7107-NG
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-54 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-19 Induction motor 1PH7107-NG-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
10.5 2000 50 26 12000 20 0.029 63
0
2
4
6
8
10
12
14
16
18
20
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 12000
continuous briefly
S6–25% (38.0 A)
S6–40% (33.0 A)
S6–60% (28.5 A)
S1 (26.0 A)
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (50 Nm, 26.0 A)
S6–60% (60 Nm, 28.5 A)
S6–40% (69 Nm, 33.0 A)
S6–25% (84 Nm, 38.0 A)
continuous briefly
0
10
20
30
40
50
60
70
80
90
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 12000
Fig. 2-16 1PH7107-NG-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-55 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-20 Induction motor 1PH7131-NF
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
11 1500 70 24 8000 30 0.076 90
0
2
4
6
8
10
12
14
16
18
20
22
24
26
0 1000 2000 3000 4000 5000 6000 7000 8000
S6–25% (41.0 A)
S6–40% (34.0 A)
S6–60% (29.0 A)
S1 (24.0 A)
0
10
20
30
40
50
60
70
80
90
100
110
120
130
140
150
0 1000 2000 3000 4000 5000 6000 7000 8000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (70 Nm, 24.0 A)
S6–60% (86 Nm, 29.0 A)
S6–40% (105 Nm, 34.0 A)
S6–25% (127 Nm, 41.0 A)
continuous briefly
continuous briefly
Fig. 2-17 1PH7131-NF
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-56 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-21 Induction motor 1PH7131-NF-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
11 1500 70 24 10000 30 0.076 90
0
2
4
6
8
10
12
14
16
18
20
22
24
26
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
continuous briefly
S6–25% (41.0 A)
S6–40% (34.0 A)
S6–60% (29.0 A)
S1 (24.0 A)
0
10
20
30
40
50
60
70
80
90
100
110
120
130
140
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (70 Nm, 24.0 A)
S6–60% (86 Nm, 29.0 A)
S6–40% (105 Nm, 34.0 A)
S6–25% (127 Nm, 41.0 A)
continuous briefly
Fig. 2-18 1PH7131-NF-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-57 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-22 Induction motor 1PH7133-ND
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
12 1000 115 30 8000 30 0.076 90
0
2
4
6
8
10
12
14
16
18
20
22
24
26
0 1000 2000 3000 4000 5000 6000 7000 8000
S6–25% (50.0 A)
S6–40% (43.0 A)
S6–60% (36.0 A)
S1 (30.0 A)
continuous briefly
0
20
40
60
80
100
120
140
160
180
200
220
240
0 1000 2000 3000 4000 5000 6000 7000 8000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (115 Nm, 30.0 A)
S6–60% (143 Nm, 36.0 A)
S6–40% (177 Nm, 43.0 A)
S6–25% (210 Nm, 50.0 A)
continuous briefly
Fig. 2-19 1PH7133-ND
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-58 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-23 Induction motor 1PH7133-ND-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
12 1000 115 30 10000 30 0.076 90
S6–25% (50.0 A)
S6–40% (43.0 A)
S6–60% (36.0 A)
S1 (30.0 A)
continuous briefly
0
2
4
6
8
10
12
14
16
18
20
22
24
26
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
0
20
40
60
80
100
120
140
160
180
200
220
240
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (115 Nm, 30.0 A)
S6–60% (143 Nm, 36.0 A)
S6–40% (177 Nm, 43.0 A)
S6–25% (210 Nm, 50.0 A)
continuous briefly
Fig. 2-20 1PH7133-ND-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-59 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-24 Induction motor 1PH7133-NF
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
15 1500 95 34 8000 30 0.l076 90
0
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
0 1000 2000 3000 4000 5000 6000 7000 8000
S6–25% (56.0 A)
S6–40% (49.0 A)
S6–60% (41.0 A)
S1 (34.0 A)
continuous briefly
0
20
40
60
80
100
120
140
160
180
200
0 1000 2000 3000 4000 5000 6000 7000 8000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (95 Nm, 34.0 A)
S6–60% (118 Nm, 41.0 A)
S6–40% (146 Nm, 49.0 A)
S6–25% (172 Nm, 56.0 A)
continuous briefly
Fig. 2-21 1PH7133-NF
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-60 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-25 Induction motor 1PH7133-NF-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
15 1500 95 34 10000 30 0.076 90
0
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
S6–25% (56.0 A)
S6–40% (49.0 A)
S6–60% (41.0 A)
S1 (34.0 A)
continuous briefly
0
20
40
60
80
100
120
140
160
180
200
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (95 Nm, 34.0 A)
S6–60% (118 Nm, 41.0 A)
S6–40% (146 Nm, 49.0 A)
S6–25% (172 Nm, 56.0 A)
continuous briefly
Fig. 2-22 1PH7133-NF-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-61 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-26 Induction motor 1PH7133-NG
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
20 2000 95 45 8000 30 0.076 90
0
4
8
12
16
20
24
28
32
36
40
0 1000 2000 3000 4000 5000 6000 7000 8000
S6–25% (73.0 A)
S6–40% (63.0 A)
S6–60% (54.0 A)
S1 (45.0 A)
0
20
40
60
80
100
120
140
160
180
200
0 1000 4000 5000 6000 7000 8000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (95 Nm, 45.0 A)
S6–60% (119 Nm, 54.0 A)
S6–40% (143 Nm, 63.0 A)
S6–25% (172 Nm, 73.0 A)
2000 3000
continuous briefly
continuous briefly
Fig. 2-23 1PH7133-NG
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-62 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-27 Induction motor 1PH7133-NG-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
20 2000 95 45 10000 30 0.076 90
0
4
8
12
16
20
24
28
32
36
40
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
S6–25% (73.0 A)
S6–40% (63.0 A)
S6–60% (54.0 A)
S1 (45.0 A)
continuous briefly
0
20
40
60
80
100
120
140
160
180
200
0 2000 4000 6000 8000 10000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (95 Nm, 45.0 A)
S6–60% (119 Nm, 54.0 A)
S6–40% (143 Nm, 63.0 A)
S6–25% (172 Nm, 73.0 A)
continuous briefly
Fig. 2-24 1PH7133-NG-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-63 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-28 Induction motor 1PH7135-NF
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
18.5 1500 118 42 8000 30 0.109 130
0
4
8
12
16
20
24
28
32
36
40
0 1000 2000 3000 4000 5000 6000 7000 8000
S6–25% (67.0 A)
S6–40% (58.0 A)
S6–60% (50.0 A)
S1 (42.0 A)
continuous briefly
0
20
40
60
80
100
120
140
160
180
200
0 1000 2000 3000 4000 5000 6000 7000 8000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (118 Nm, 42.0 A)
S6–60% (146 Nm, 50.0 A)
S6–40% (178 Nm, 58.0 A)
S6–25% (210 Nm, 67.0 A)
continuous briefly
Fig. 2-25 1PH7135–NF
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-64 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-29 Induction motor 1PH7135-NF-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
18.5 1500 118 42 10000 30 0.109 130
0
4
8
12
16
20
24
28
32
36
40
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
S6–25% (67.0 A)
S6–40% (58.0 A)
S6–60% (50.0 A)
S1 (42.0 A)
continuous briefly
0
20
40
60
80
100
120
140
160
180
200
220
240
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (118 Nm, 42.0 A)
S6–60% (146 Nm, 50.0 A)
S6–40% (178 Nm, 58.0 A)
S6–25% (210 Nm, 67.0 A)
continuous briefly
Fig. 2-26 1PH7135-NF-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-65 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-30 Induction motor 1PH7137-ND
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
17 1000 162 43 8000 30 0.109 130
02468
10121416182022242628303234
0 1000 2000 3000 4000 5000 6000 7000 8000
S6–25% (68.0 A)
S6–40% (60.0 A)
S6–60% (50.0 A)
S1 (43.0 A)
0
20
40
60
80
100
120
140
160
180
200
220
240
260
280
300
0 1000 2000 3000 4000 5000 6000 7000 8000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (162 Nm, 43.0 A)
S6–60% (196 Nm, 50.0 A)
S6–40% (239 Nm, 60.0 A)
S6–25% (277 Nm, 68.0 A)
continuous briefly
continuous briefly
Fig. 2-27 1PH7137-ND
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-66 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-31 Induction motor 1PH7137-ND-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
17 1000 162 43 10000 30 0.109 130
02468
10121416182022242628303234
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
S6–25% (68.0 A)
S6–40% (60.0 A)
S6–60% (50.0 A)
S1 (43.0 A)
continuous briefly
0
40
80
120
160
200
240
280
320
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (162 Nm, 43.0 A)
S6–60% (196 Nm, 50.0 A)
S6–40% (239 Nm, 60.0 A)
S6–25% (277 Nm, 68.0 A)
continuous briefly
Fig. 2-28 1PH7137-ND-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-67 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-32 Induction motor 1PH7137-NF
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
22 1500 140 57 8000 30 0.109 130
0
5
10
15
20
25
30
35
40
45
0 1000 2000 3000 4000 5000 6000 7000 8000
S6–25% (92.0 A)
S6–40% (79.0 A)
S6–60% (68.0 A)
S1 (57.0 A)
0
20
40
60
80
100
120
140
160
180
200
220
240
260
280
300
0 1000 2000 3000 4000 5000 6000 7000 8000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (140 Nm, 57.0 A)
S6–60% (175 Nm, 68.0 A)
S6–40% (210 Nm, 79.0 A)
S6–25% (255 Nm, 92.0 A)
continuous briefly
continuous briefly
Fig. 2-29 1PH7137-NF
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-68 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-33 Induction motor 1PH7137-NF-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
22 1500 140 57 10000 30 0.109 130
0
5
10
15
20
25
30
35
40
45
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
S6–25% (92.0 A)
S6–40% (79.0 A)
S6–60% (68.0 A)
S1 (57.0 A)
continuous briefly
0
20
40
60
80
100
120
140
160
180
200
220
240
260
280
300
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (140 Nm, 57.0 A)
S6–60% (175 Nm, 68.0 A)
S6–40% (210 Nm, 79.0 A)
S6–25% (255 Nm, 92.0 A)
continuous briefly
Fig. 2-30 1PH7137-NF-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-69 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-34 Induction motor 1PH7137-NG
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth
[min]J
[kgm2]m
[kg]
28 2000 134 60 8000 30 0.109 130
0
5
10
15
20
25
30
35
40
45
50
55
0 1000 2000 3000 4000 5000 6000 7000 8000
S6–25% (100.0 A)
S6–40% (87.0 A)
S6–60% (73.0 A)
S1 (60.0 A)
continuous briefly
0
20
40
60
80
100
120
140
160
180
200
220
240
260
280
300
0 1000 2000 3000 4000 5000 6000 7000 8000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (134 Nm, 60.0 A)
S6–60% (167 Nm, 73.0 A)
S6–40% (205 Nm, 87.0 A)
S6–25% (239 Nm, 100.0 A)
continuous briefly
Fig. 2-31 1PH7137-NG
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-70 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-35 Induction motor 1PH7137-NG-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
28 2000 134 60 10000 30 0.109 130
0
5
10
15
20
25
30
35
40
45
50
55
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
S6–25% (100.0 A)
S6–40% (87.0 A)
S6–60% (73.0 A)
S1 (60.0 A)
continuous briefly
0
20
40
60
80
100
120
140
160
180
200
220
240
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (134 Nm, 60.0 A)
S6–60% (167 Nm, 73.0 A)
S6–40% (205 Nm, 87.0 A)
S6–25% (239 Nm, 100.0 A)
continuous briefly
Fig. 2-32 1PH7137-NG-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-71 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-36 Induction motor 1PH7163-NB
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
12 500 229 30 6500 35 0.19 180
0
2
4
6
8
10
12
14
16
18
20
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
S6–40% (42.0 A)
S6–60% (36.0 A)
S1 (30.0 A)
0
40
80
120
160
200
240
280
320
360
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (229 Nm, 30.0 A)
S6–60% (286 Nm, 36.0 A)
S6–40% (344 Nm, 42.0 A)
continuous briefly
continuous briefly
Fig. 2-33 1PH7163-NB
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-72 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-37 Induction motor 1PH7163-NB-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
12 500 229 30 8000 35 0.19 180
0
2
4
6
8
10
12
14
16
18
20
0 1000 2000 3000 4000 5000 6000 7000 8000
S6–40% (42.0A)
S6–60% (36.0A)
S1 (30.0A)
continuous briefly
0
40
80
120
160
200
240
280
320
360
0 1000 2000 3000 4000 5000 6000 7000 8000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (229 Nm, 30.0 A)
S6–60% (286 Nm, 36.0 A)
S6–40% (344 Nm, 42.0 A)
continuous briefly
Fig. 2-34 1PH7163-NB-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-73 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-38 Induction motor 1PH7163-ND
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
22 1000 210 55 6500 35 0.19 180
0
5
10
15
20
25
30
35
40
45
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
S6–25% (93.0 A)
S6–40% (77.0 A)
S6–60% (65.0 A)
S1 (55.0 A)
0
50
100
150
200
250
300
350
400
450
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (210 Nm, 55.0 A)
S6–60% (258 Nm, 65.0 A)
S6–40% (315 Nm, 77.0 A)
S6–25% (382 Nm, 93.0 A)
continuous briefly
continuous briefly
Fig. 2-35 1PH7163-ND
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-74 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-39 Induction motor 1PH7163-ND-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
22 1000 210 55 8000 35 0.19 180
0
5
10
15
20
25
30
35
40
45
0 1000 2000 3000 4000 5000 6000 7000 8000
S6–25% (93.0 A)
S6–40% (77.0 A)
S6–60% (65.0 A)
S1 (55.0 A)
continuous briefly
0
50
100
150
200
250
300
350
400
0 1000 2000 3000 4000 5000 6000 7000 8000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (210 Nm, 55.0 A)
S6–60% (258 Nm, 65.0 A)
S6–40% (315 Nm, 77.0 A)
S6–25% (382 Nm, 93.0 A)
continuous briefly
Fig. 2-36 1PH7163-ND-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-75 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-40 Induction motor 1PH7163-NF
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
30 1500 191 72 6500 35 0.19 180
0
5
10
15
20
25
30
35
40
45
50
55
60
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
S6–25% (120.0 A)
S6–40% (102.0 A)
S6–60% (86.0 A)
S1 (72.0 A)
0
50
100
150
200
250
300
350
400
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (191 Nm, 72.0 A)
S6–60% (236 Nm, 86.0 A)
S6–40% (286 Nm, 102.0 A)
S6–25% (344 Nm, 120.0 A)
continuous briefly
continuous briefly
Fig. 2-37 1PH7163-NF
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-76 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-41 Induction motor 1PH7163-NF-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
30 1500 191 72 8000 35 0.19 180
0
5
10
15
20
25
30
35
40
45
50
55
60
0 1000 2000 3000 4000 5000 6000 7000 8000
S6–25% (120.0 A)
S6–40% (102.0 A)
S6–60% (86.0 A)
S1 (72.0 A)
continuous briefly
0
50
100
150
200
250
300
350
400
0 1000 2000 3000 4000 5000 6000 7000 8000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (191 Nm, 72.0 A)
S6–60% (236 Nm, 86.0 A)
S6–40% (286 Nm, 102.0 A)
S6–25% (344 Nm, 120.0 A)
continuous briefly
Fig. 2-38 1PH7163-NF-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-77 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-42 Induction motor 1PH7163-NG4
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
36 2000 172 85 6500 35 0.19 180
0
5
10
15
20
25
30
35
40
45
50
55
60
65
70
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
S6–25% (133.0 A)
S6–40% (114.0 A)
S6–60% (100.0 A)
S1 (85.0 A)
0
50
100
150
200
250
300
350
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (172 Nm, 85.0 A)
S6–60% (210 Nm, 100.0 A)
S6–40% (248 Nm, 114.0 A)
S6–25% (296 Nm, 133.0 A)
continuous briefly
continuous briefly
Fig. 2-39 1PH7163-NG4
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-78 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-43 Induction motor 1PH7163-NG4-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
36 2000 172 85 8000 35 0.19 180
0
5
10
15
20
25
30
35
40
45
50
55
60
65
70
0 1000 2000 3000 4000 5000 6000 7000 8000
S6–25% (133.0 A)
S6–40% (114.0 A)
S6–60% (100.0 A)
S1 (85.0 A)
continuous briefly
0
40
80
120
160
200
240
280
320
0 1000 2000 3000 4000 5000 6000 7000 8000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (172 Nm, 85.0 A)
S6–60% (210 Nm, 100.0 A)
S6–40% (248 Nm, 114.0 A)
S6–25% (296 Nm, 133.0 A)
continuous briefly
Fig. 2-40 1PH7163-NG4-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-79 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-44 Induction motor 1PH7167-NB4
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
16 500 306 37 6500 35 0.23 228
0
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
S6–40% (53.0 A)
S6–60% (44.0 A)
S1 (37.0 A)
0
50
100
150
200
250
300
350
400
450
500
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (306 Nm, 37.0 A)
S6–60% (372 Nm, 44.0 A)
S6–40% (458 Nm, 53.0 A)
continuous briefly
continuous briefly
Fig. 2-41 1PH7167-NB4
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-80 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-45 Induction motor 1PH7167-NB4-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
16 500 306 37 8000 35 0.23 228
0
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
0 2000 3000 4000 5000 6000 7000 8000
S6–40% (53.0 A)
S6–60% (44.0 A)
S1 (37.0 A)
continuous briefly
0
50
100
150
200
250
300
350
400
450
500
0 1000 2000 3000 4000 5000 6000 7000 8000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (306 Nm, 37.0 A)
S6–60% (372 Nm, 44.0 A)
S6–40% (458 Nm, 53.0 A)
1000
continuous briefly
Fig. 2-42 1PH7167-NB4-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-81 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-46 Induction motor 1PH7167-ND4
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
28 1000 267 71 6500 35 0.23 228
0
5
10
15
20
25
30
35
40
45
50
55
60
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
S6–25% (117.0 A)
S6–40% (100.0 A)
S6–60% (85.0 A)
S1 (71.0 A)
continuous briefly
0
50
100
150
200
250
300
350
400
450
500
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500Speed [RPM]
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (267 Nm, 71.0 A)
S6–60% (329 Nm, 85.0 A)
S6–40% (401 Nm, 100.0 A)
S6–25% (477 Nm, 117.0 A)
continuous briefly
Fig. 2-43 1PH7167–ND4
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-82 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-47 Induction motor 1PH7167-ND4-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
28 1000 267 71 8000 35 0.23 228
0
5
10
15
20
25
30
35
40
45
50
55
60
0 1000 2000 3000 4000 5000 6000 7000 8000
S6–25% (117.0 A)
S6–40% (100.0 A)
S6–60% (85.0 A)
S1 (71.0 A)
continuous briefly
0
50
100
150
200
250
300
350
400
450
500
0 1000 2000 3000 4000 5000 6000 7000 8000
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (267 Nm, 71.0 A)
S6–60% (329 Nm, 85.0 A)
S6–40% (401 Nm, 100.0 A)
S6–25% (477 Nm, 117.0 A)
continuous briefly
Fig. 2-44 1PH7167-ND4-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-83 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-48 Induction motor 1PH7167-NF
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
37 1500 236 82 6500 35 0.23 228
05
101520253035404550556065707580
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
S6–25% (134.0 A)
S6–40% (115.0 A)
S6–60% (97.0 A)
S1 (82.0 A)
0
50
100
150
200
250
300
350
400
450
500
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (236 Nm, 82.0 A)
S6–60% (293 Nm, 97.0 A)
S6–40% (357 Nm, 115.0 A)
S6–25% (427 Nm, 134.0 A)
continuous briefly
continuous briefly
Fig. 2-45 1PH7167-NF
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-84 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-49 Induction motor 1PH7167-NF-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
37 1500 236 82 8000 35 0.23 228
05
101520253035404550556065707580
0 1000 2000 3000 4000 5000 6000 7000 8000
S6–25% (134.0 A)
S6–40% (115.0 A)
S6–60% (97.0 A)
S1 (82.0 A)
continuous briefly
M [N
m]
P [
kW]
n [RPM]
0
50
100
150
200
250
300
350
400
450
0 1000 2000 3000 4000 5000 6000 7000 8000n [RPM]
S1 (236 Nm, 82.0 A)
S6–60% (293 Nm, 97.0 A)
S6–40% (357 Nm, 115.0 A)
S6–25% (427 Nm, 134.0 A)
continuous briefly
Fig. 2-46 1PH7167-NF-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-85 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-50 Induction motor 1PH7167-NG
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
41 2000 196 89 6500 35 0.23 228
05
101520253035404550556065707580
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
S6–25% (145.0 A)
S6–40% (106.0 A)
S6–60% (124.0 A)
S1 (89.0 A)
0
50
100
150
200
250
300
350
400
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
M [N
m]
P [
kW]
n [RPM]
n [RPM]
S1 (196 Nm, 89.0 A)
S6–60% (244 Nm, 106.0 A)
S6–40% (291 Nm, 124.0 A)
S6–25% (353 Nm, 145.0 A)
continuous briefly
continuous briefly
Fig. 2-47 1PH7167-NG
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-86 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-51 Induction motor 1PH7167-NG-0L
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth
[min]J
[kgm2]m
[kg]
41 2000 196 89 8000 35 0.23 228
05
101520253035404550556065707580
0 1000 2000 3000 4000 5000 6000 7000 8000
S1 (89.0 A)
S6–60% (106.0 A)
S6–40% (124.0 A)
S6–25% (145.0 A)
continuous briefly
M [N
m]
P [
kW]
n [RPM]
0
50
100
150
200
250
300
350
400
0 1000 2000 3000 4000 5000 6000 7000 8000
n [RPM]
S1 (196 Nm, 89.0 A)
S6–60% (244 Nm, 106.0 A)
S6–40% (291 Nm, 124.0 A)
S6–25% (353 Nm, 145.0 A)
continuous briefly
Fig. 2-48 1PH7167-NG-0L
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-87 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-52 Induction motor 1PH7184-NT
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
21,5 500 411 76 5000 7000 1)
40 0.5 390
0
5
10
15
20
25
30
35
0 1000 2000 3000 4000 5000 6000 7000
S6–40% (103.0 A)
S6–60% (90.0 A)
S1 (76.0 A)
P [
kW]
n [RPM]
0
50
100
150
200
250
300
350
400
450
500
550
600
0 1000 2000 3000 4000 5000 6000 7000n [RPM]
M [N
m]
S1 (411 Nm, 76.0 A)
S6–60% (506 Nm, 90.0 A)
S6–40% (583 Nm, 103.0 A)
continuous briefly2)
continuous briefly2)
Fig. 2-49 1PH7184-NT
____________1) Optional2) This only applies for bearing versions for coupling/belt out-drive.
For bearing versions designed for increased cantilever forces, this limit is at n=3000 RPMFor bearing versions designed for increased maximum speeds, this limit is at n=4500 RPM
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-88 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-53 Induction motor 1PH7184-ND
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
39 1000 372 90 5000 7000 1)
40 0.5 390
0
5
10
15
20
25
30
35
40
45
50
55
60
0 1000 2000 3000 4000 5000 6000 7000
S6–40% (126.0 A)
S6–60% (106.0 A)
S1 (90.0 A)
P [
kW]
n [RPM]
0
50
100
150
200
250
300
350
400
450
500
550
600
650
0 1000 2000 3000 4000 5000 6000 7000n [RPM]
M [N
m]
continuous briefly2)
continuous briefly2)
S1 (372 Nm, 90.0 A)
S6–60% (458 Nm, 106.0 A)
S6–40% (554 Nm, 126.0 A)
Fig. 2-50 1PH7184-ND
____________1) Optional2) This only applies for bearing versions for coupling/belt out-drive.
For bearing versions designed for increased cantilever forces, this limit is at n=3000 RPMFor bearing versions designed for increased maximum speeds, this limit is at n=4500 RPM
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-89 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-54 Induction motor 1PH7184-NE
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
40 1250 306 85 5000 7000 1)
40 0.5 390
0
5
10
15
20
25
30
35
40
45
50
55
60
0 1000 2000 3000 4000 5000 6000 7000
S6–40% (110.0 A)
S6–60% (100.0 A)
S1 (85.0 A)
P [
kW]
n [RPM]
0
50
100
150
200
250
300
350
400
450
0 1000 2000 3000 4000 5000 6000 7000n [RPM]
M [N
m]
continuous briefly2)
S1 (306 Nm, 85.0 A)
S6–60% (382 Nm, 100.0 A)
S6–40% (428 Nm, 110.0 A)
continuous briefly2)
Fig. 2-51 1PH7184-NE
____________1) Optional2) This only applies for bearing versions for coupling/belt out-drive.
For bearing versions designed for increased cantilever forces, this limit is at n=3000 RPMFor bearing versions designed for increased maximum speeds, this limit is at n=4500 RPM
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-90 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-55 Induction motor 1PH7184-NF
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
51 1500 325 120 5000 7000 1)
40 0.5 390
0
10
20
30
40
50
60
70
80
0 1000 2000 3000 4000 5000 6000 7000
S6–40% (174.0A)
S6–60% (149.0A)
S1 (120.0A)
P [
kW]
n [RPM]
0
50
100
150
200
250
300
350
400
450
0 1000 2000 3000 4000 5000 6000 7000
n [RPM]
M [N
m]
continuous briefly2)
S1 (325 Nm, 120.0 A)
S6–60% (433 Nm, 149.0 A)
S6–40% (516 Nm, 174.0 A)
continuous briefly2)
Fig. 2-52 1PH7184–NF
____________1) Optional2) This only applies for bearing versions for coupling/belt out-drive.
For bearing versions designed for increased cantilever forces, this limit is at n=3000 RPMFor bearing versions designed for increased maximum speeds, this limit is at n=4500 RPM
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-91 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-56 Induction motor 1PH7184-NL
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
78 2500 298 172 5000 7000 1)
40 0.5 390
0
10
20
30
40
50
60
70
80
90
100
110
120
0 1000 2000 3000 4000 5000 6000 7000
S6–40% (237.0A)
S6–60% (204.0A)
S1 (172.0A)
P [
kW]
n [RPM]
0
50
100
150
200
250
300
350
400
450
500
0 1000 2000 3000 4000 5000 6000 7000n [RPM]
M [N
m]
continuous briefly2)
S1 (298 Nm, 172.0 A)
S6–60% (371 Nm, 204.0 A)
S6–40% (439 Nm, 237.0 A)continuous briefly 2)
Fig. 2-53 1PH7184-NL
____________1) Optional2) This only applies for bearing versions for coupling/belt out-drive.
For bearing versions designed for increased cantilever forces, this limit is at n=3000 RPMFor bearing versions designed for increased maximum speeds, this limit is at n=4500 RPM
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-92 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-57 Induction motor 1PH7186-NT
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
29,6 500 565 106 5000 7000 1)
40 0.67 460
0
5
10
15
20
25
30
35
40
45
0 1000 2000 3000 4000 5000 6000 7000
S6–40% (147.0 A)
S6–60% (126.0 A)
S1 (106.0 A)
P [
kW]
n [RPM]
050
100150200250300350400450500550600650700750800850
0 1000 2000 3000 4000 5000 6000 7000n [RPM]
M [N
m]
continuous briefly2)
S1 (565 Nm, 106.0 A)
S6–60% (697 Nm, 126.0 A)
S6–40% (821 Nm, 147.0 A)
continuous briefly2)
Fig. 2-54 1PH7186-NT
____________1) Optional2) This only applies for bearing versions for coupling/belt out-drive.
For bearing versions designed for increased cantilever forces, this limit is at n=3000 RPMFor bearing versions designed for increased maximum speeds, this limit is at n=4500 RPM
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-93 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-58 Induction motor 1PH7186-ND
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
51 1000 487 118 5000 7000 1)
40 0.67 460
0
10
20
30
40
50
60
70
80
0 1000 2000 3000 4000 5000 6000 7000
S6–40% (164.0 A)
S6–60% (141.0 A)
S1 (118.0 A)
P [
kW]
n [RPM]
050
100150200250300350400450500550600650700750
0 1000 2000 3000 4000 5000 6000 7000n [RPM]
M [N
m]
continuous briefly2)
S1 (487 Nm, 118.0 A)
S6–60% (621 Nm, 141.0 A)
S6–40% (735 Nm, 164.0 A)
continuous briefly2)
Fig. 2-55 1PH7186-ND
____________1) Optional2) This only applies for bearing versions for coupling/belt out-drive.
For bearing versions designed for increased cantilever forces, this limit is at n=3000 RPMFor bearing versions designed for increased maximum speeds, this limit is at n=4500 RPM
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-94 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-59 Induction motor 1PH7186-NE
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
60 1250 458 120 5000 7000 1)
40 0.67 460
0
10
20
30
40
50
60
70
80
0 1000 2000 3000 4000 5000 6000 7000
S6–40% (150.0 A)
S6–60% (135.0 A)
S1 (120.0 A)
P [
kW]
n [RPM]
0
50
100
150
200
250
300
350
400
450
500
550
600
650
0 1000 2000 3000 4000 5000 6000 7000n [RPM]
M [N
m]
continuous briefly2)
S1 (458 Nm, 120.0 A)
S6–60% (542 Nm, 135.0 A)
S6–40% (611 Nm, 150.0 A)
continuous briefly2)
Fig. 2-56 1PH7186-NE
____________1) Optional2) This only applies for bearing versions for coupling/belt out–drive.
For bearing versions designed for increased cantilever forces, this limit is at n=3000 RPMFor bearing versions designed for increased maximum speeds, this limit is at n=4500 RPM
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-95 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-60 Induction motor 1PH7224–NC
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
55 700 750 117 45005500 1)
40 1.48 650
0
10
20
30
40
50
60
70
80
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500
fp
IN
PN
LA
[kHz]
[A]
[kW]
[dB (A)]
3.2
117
55
81
4
108
49
76
4.7
42
76Tolerance +3 dB(A)
Influence of the pulse frequency fp
162
S6–40% (149.0A)
S6–60% (135.0A)
S1 (117.0A)
P [
kW]
n [RPM]
0
100
200
300
400
500
600
700
800
900
1000
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500
n [RPM]
M [N
m]
continuous briefly2)
S1 (750 Nm, 117.0 A)
S6–60% (907 Nm, 135.0 A)
S6–40% (1023 Nm, 149.0 A)
continuous briefly2)
Fig. 2-57 1PH7224-NC
____________1) Optional2) This only applies for bearing versions for coupling/belt out-drive.
For bearing versions designed for increased cantilever forces, this limit is at n=2700 RPMFor bearing versions designed for increased maximum speeds, this limit is at n=3600 RPM
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-96 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-61 Induction motor 1PH7224-ND
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
71 1000 678 164 45005500 1)
40 1.48 650
0
10
20
30
40
50
60
70
80
90
100
110
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500
S6–60% (190.0 A)
S1 (164.0 A)
S6–40% (222.0 A)
P [
kW]
n [RPM]
0
100
200
300
400
500
600
700
800
900
1000
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500
M [N
m]
n [RPM]
continuous briefly2)
S1 (678 Nm, 164.0 A)
S6–60% (840 Nm, 190.0 A)
S6–40% (1003 Nm, 222.0 A)
continuous briefly2)
Fig. 2-58 1PH7224-ND
____________1) Optional2) This only applies for bearing versions for coupling/belt out-drive.
For bearing versions designed for increased cantilever forces, this limit is at n=2700 RPMFor bearing versions designed for increased maximum speeds, this limit is at n=3600 RPM
Technical Data and Characteristics
2.2 Power-speed and torque-speed diagrams
1PH7/2-97 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 2-62 Induction motor 1PH7224-NF
PN[kW]
nN[RPM]
MN[Nm]
IN[A]
nmax[RPM]
Tth [min]
J [kgm2]
m[kg]
100 1500 637 188 45005500 1)
40 1.48 650
S6–60% (802 Nm, 230.0 A)
0
10
20
30
40
50
60
70
80
90
100
110
120
130
140
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500
Influence of the pulse frequency fpfpINPN
LA
[kHz]
[A]
[kW]
[dB (A)]
3.2
188
100
81
4
180
98
76
4.7
162
85.5
76Tolerance +3 dB(A)
S6–40% (248.0 A)
S6–60% (230.0 A)
S1 (188.0 A)
P [
kW]
n [RPM]
0
100
200
300
400
500
600
700
800
900
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500
n [RPM]
M [N
m]
continuous briefly2)
S1 (637 Nm, 188.0 A)
S6–40% (866 Nm, 248.0 A)
continuous briefly2)
Fig. 2-59 1PH7224-NF
____________1) Optional2) This only applies for bearing versions for coupling/belt out-drive.
For bearing versions designed for increased cantilever forces, this limit is at n=2700 RPMFor bearing versions designed for increased maximum speeds, this limit is at n=3600 RPM
2.3 Cantilever and axial force diagrams
1PH7/2-98 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
2.3 Cantilever and axial force diagrams
For a general description, please refer to the documentation “General Section forInduction Motors”.
2.3.1 Cantilever force
!Caution
When using mechanical transmission elements, which subject the shaft end to acantilever force, it should be ensured that the maximum limit values, specifiedin the cantilever force diagrams, are not exceeded.
Note
Shaft heights 180 and 225
For applications with an extremely low cantilever force load, it should be ensuredthat the motor shaft is subject to a minimum cantilever force load as specifiedin the diagrams. Lower cantilever forces can cause the cylindrical bearings to rollin an undefined fashion. This results in increased bearing wear and higher noise.For these applications, bearing designs for a coupling out-drive should beselected.
The maximum permissible and the minimum required cantilever forces are shownin the following diagrams.
Technical Data and Characteristics
2.3 Cantilever and axial force diagrams
1PH7/2-99 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
SH 100, permissible cantilever forces for a standard bearing design
1 2 3 4 5 6 7 8 9 103 n [RPM]
Lh1 8000 h
3000
2000
1000
FQAS [N]
Bearings, DE: 6308
Bearings, NDE: 6208
Estimated bearing lifetime under different operating conditions (FQAS; n)
q = Duration [%] underconstant conditions
Lh tot =100
q1
Lh1+
q2
Lh2+
q3
Lh3
F1QAS FQAS F2QAS
F1QAS = 0.9 FQAS
F2QAS = 1.1 FQAS
x = 40 mm
x
Lh2 12000 h
Lh3 16000 h
Fig. 2-60 Cantilever force diagram, shaft height 100 for standard bearing designs
Technical Data and Characteristics
2.3 Cantilever and axial force diagrams
1PH7/2-100 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
SH 100, permissible cantilever forces for increased max. speed
1 2 3 4 5 6 7 8 9 10 11 12 103
n [RPM]
Lh1 8000 h
3000
2300
2000
1750
1500
1250
1000
FQAS [N]
Bearings, DE: 6208
Bearings, NDE: 6208
Estimated bearing lifetime under different operating conditions (FQAS; n)
q = Duration [%] underconstant conditions
Lh tot =100
q1
Lh1+
q2
Lh2+
q3
Lh3
F1QAS FQAS F2QAS
F1QAS = 0.9 FQAS
F2QAS = 1.1 FQAS
x = 40 mm
x
Fig. 2-61 Cantilever force diagram, shaft height 100 for increased max. speed
Technical Data and Characteristics
2.3 Cantilever and axial force diagrams
1PH7/2-101 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
SH 132, permissible cantilever forces for a standard bearing design
1 2 3 4 5 6 7 8 103 n [RPM]
Lh1 8000 h
4000
3000
2000
FQAS [N]
Bearings, DE: 6310
Bearings, NDE: 6210
Estimated bearing lifetime under different operating conditions (FQAS; n)
q = Duration [%] underconstant conditions
Lh tot =100
q1
Lh1+
q2
Lh2+
q3
Lh3
F1QAS FQAS F2QAS
F1QAS = max. 2000 N
F2QAS = 1.1 FQAS
x = 55 mm
x
Lh2 12000 h
Lh3 16000 h
5000
F3QAS
1.5xF3QAS = max. 2500 N
Fig. 2-62 Cantilever force diagram, shaft height 132 for standard bearing designs
Technical Data and Characteristics
2.3 Cantilever and axial force diagrams
1PH7/2-102 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
SH 132, permissible cantilever forces for increased max. speed
1 2 3 4 5 6 7 8 9 10 103 n [RPM]
Lh1 8000 h
3000
2250
2000
1750
1500
1250
1000
FQAS [N]
Bearings, DE: 6210
Bearings, NDE: 6210
Estimated bearing lifetime under different operating conditions (FQAS; n)
q = Duration [%] underconstant conditions
Lh tot =100
q1
Lh1+
q2
Lh2+
q3
Lh3
F1QAS FQAS F2QAS
F1QAS = 0.9 FQAS
F2QAS = 1.1 FQAS
x = 55 mm
2500
2650
x
Fig. 2-63 Cantilever force diagram, shaft height 132 for increased max. speed
Technical Data and Characteristics
2.3 Cantilever and axial force diagrams
1PH7/2-103 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
SH 160, permissible cantilever forces for a standard bearing design
1 2 3 4 5 6 7 103 n [RPM]
Lh1 8000 h
7000
6000
5000
FQAS [N]
Bearings, DE: 6312
Bearings, NDE: 6212
Estimated bearing lifetime under different operating conditions (FQAS; n)
q = Duration [%] underconstant conditions
Lh tot =100
q1
Lh1+
q2
Lh2+
q3
Lh3
F1QAS FQAS F2QAS
F1QAS = 0.9 FQAS
F2QAS = 1.1 FQAS
x = 55 mm
x
Lh2 12000 h
Lh3 16000 h
8000
Fig. 2-64 Cantilever force diagram, shaft height 160 for standard bearing designs
Technical Data and Characteristics
2.3 Cantilever and axial force diagrams
1PH7/2-104 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
SH 160, permissible cantilever forces for increased max. speed
1 2 3 4 5 6 7 8 103
n [RPM]
Lh1 8000 h
3800
3250
3000
2750
2500
2250
2000
FQAS [N]
Bearings, DE: 6212
Bearings, NDE: 6212
Estimated bearing lifetime under different operating conditions (FQAS; n)
q = Duration [%] underconstant conditionsLh tot =
100
q1
Lh1+
q2
Lh2+
q3
Lh3
F1QAS FQAS F2QAS
F1QAS = 0.9 FQAS
F2QAS = 1.1 FQAS
x = 55 mm
3500
x
Fig. 2-65 Cantilever force diagram, shaft height 160 for increased max. speed
Technical Data and Characteristics
2.3 Cantilever and axial force diagrams
1PH7/2-105 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
SH 180, permissible cantilever forces for a coupling out-drive
FQ [kN]
40 80 120 X [mm]
5
4
3
n: Average operating speed [RPM]
FQ
x
6
Bearings DE: 62 14
NDE: 62 14
1000 RPM
2000 RPM
3000 RPM
4000 RPM
5000 RPM
160
Fig. 2-66 Cantilever force diagram, shaft height 180 for coupling outdrive
Technical Data and Characteristics
2.3 Cantilever and axial force diagrams
1PH7/2-106 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
SH 180, permissible cantilever forces for belt out-drives
FQ [kN]
40 80 120 X [mm]
11
9
7
n: Average operating speed [RPM]
FQ
x
13
Bearings DE: NU2 14E
NDE: 62 14
1000 RPM
2000 RPM
3000 RPM
4000 RPM
5000 RPM
160
Minimum cantilever force: 3 kN
15
Strength limit ofthe shaft end
Fig. 2-67 Cantilever force diagram, shaft height 180 for belt out-drive
Technical Data and Characteristics
2.3 Cantilever and axial force diagrams
1PH7/2-107 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
SH 180, permissible increased cantilever forces for belt out-drives
FQ [kN]
40 80 120 X [mm]
13
11
9
n: Average operating speed [RPM]
FQ
x
15
Bearings DE: NU22 14E 12.0
NDE: 62 14 12.0
160
Minimum cantilever force: 4 kN
17
1000 RPM
1500 RPM
3000 RPM
4000 RPM
5000 RPM
Strength limit ofthe shaft end
Fig. 2-68 Cantilever force diagram, shaft height 180 for belt out-drives (increased cantilever forces)
Technical Data and Characteristics
2.3 Cantilever and axial force diagrams
1PH7/2-108 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
SH 225, permissible cantilever forces for a coupling out-drive
FQ [kN]
40 80 120 X [mm]
5
4
3
n: Average operating speed [RPM]
FQ
x
6
Bearings DE: 62 16
NDE: 62 16
160
1000 RPM
1500 RPM
3000 RPM
2000 RPM
Fig. 2-69 Cantilever force diagram, shaft height 225 for coupling outdrive
Technical Data and Characteristics
2.3 Cantilever and axial force diagrams
1PH7/2-109 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
SH 225, permissible cantilever forces for belt out-drives
FQ [kN]
40 80 120 X [mm]
12
10
8
n: Average operating speed [RPM]
FQ
x
14
Bearings DE: NU2 16E
NDE: 62 16
1000 RPM
2000 RPM
3000 RPM
1500 RPM
160
Minimum cantilever force: 4 kN
16
Fig. 2-70 Cantilever force diagram, shaft height 225 for belt out-drive
Technical Data and Characteristics
2.3 Cantilever and axial force diagrams
1PH7/2-110 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
SH 225, permissible increased cantilever forces for belt out-drives
FQ [kN]
40 80 120 X [mm]
14
12
10
n: Average operating speed [RPM]
FQ
x
16
Bearings DE: NU22 16E
NDE: 62 16
1000 RPM
4500 RPM
3000 RPM
1500 RPM
160
Minimum cantilever force: 5 kN
18
20
Strength limit ofthe shaft end
Fig. 2-71 Cantilever force diagram, shaft height 225 for belt out-drives (increased cantilever forces)
Technical Data and Characteristics
2.3 Cantilever and axial force diagrams
1PH7/2-111 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
2.3.2 Axial force
The maximum axial forces FAZ for horizontal motor mounting are specified in thefollowing force diagrams.
The force diagrams and tables are only valid for standard drive shaft ends; non-standard drive shaft end dimensions are specified for each particular applicationcorresponding to the permissible forces.
For force levels going beyond these, please contact your local Siemens office.
Shaft heights 180 and 225: For coupling, belt or pinion out-drive with straightteeth, generally, only low axial forces occur. The locating bearing is adequatelydimensioned so that these forces can be accepted in all mounting positions.
The following forces due to the weight of the drive-out element are permissible atthe shaft end in order to ensure perfect vibration characteristics (i.e. low vibration):
SH 180: max 500 N
SH 225: max. 600 N
For pinion out-drives with helical gearing, please contact your local Siemens office.
Note
The permissible axial force at the shaft end without taking into account thealignment forces of the rotor weight, the mounting position as well as the forcedirection.
Information regarding axial force stressing, refer to the Planning Guide“AC Induction Motors, General Section”.
Table 2-63 Force due to weight FL and alignment force FC of the rotor
Motor type Force due to the weight FL[N]
Alignment force FC [N]
1PH71011PH71031PH71051PH7107
125125200200
400
1PH71331PH71351PH7137
290410410
600
1PH71631PH7167
520630
800
1PH71841PH7186
9801220
500 1)
1PH7224 1720 550 1)
1) only for coupling out-drive
Technical Data and Characteristics
2.3 Cantilever and axial force diagrams
1PH7/2-112 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
SH 100, permissible axial force at the shaft end
n = 1000 RPM2000
30004000
5000600070008000
9000
Bearings, DE: 6308 FC = 400 N
Bearings, NDE: 6208 Lh = 12000 h
0.5 1.51 2 103 FA [N]
3000
2000
1000
FQAS [N]
FC = Alignment force
Fig. 2-72 Axial force diagram at the shaft end, shaft height 100
When determining the axial force, refer to the Planning Guide, “General Section”.
SH 132, permissible axial force at the shaft end
Bearings, DE: 6310 FC = 600 N
Bearings, NDE: 6210Lh = 12000 h
1 2 3 4 103 FA [N]
3000
2000
1000
FQAS [N]
n = 1000 RPM2000
30004000
50006000
70008000
FC = Alignment force
Fig. 2-73 Axial force diagram at the shaft end, shaft height 132
Technical Data and Characteristics
2.3 Cantilever and axial force diagrams
1PH7/2-113 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
SH 160, permissible axial force at the shaft end
Bearings, DE: 6312 FC = 800 N
Bearings, NDE: 6212 FC = Alignment force
Lh = 12000 h
1 2 3 5 103 FA [N]
3000
2000
1000
FQAS [N]
4
4000
5000
n = 1000 RPM
20003000
40005000
6000
6500
Fig. 2-74 Axial force diagram at the shaft end, shaft height 160
Technical Data and Characteristics
2.3 Cantilever and axial force diagrams
1PH7/2-114 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
SH 100, permissible axial force at the shaft end for increased max. speed
n = 1000 RPM
5000
12000
9000
Bearings, DE: 6208 FC = 400 N
Bearings, NDE: 6208 Lh = 8000 h
0.5 1.51 2.5 103
FA [N]
3000
2000
1000
FQAS [N]
FC = Alignment force
2
Fig. 2-75 Axial force diagram at the shaft end, shaft height 100 (increased max. speed)
SH 132, permissible axial force at the shaft end for increased max. speed
n = 1000 RPM
4000
10000
6000
Bearings, DE: 6210 FC = 400 N
Bearings, NDE: 6210 Lh = 8000 h
0.5 1.51 3 103
FA [N]
3000
2000
1000
FQAS [N]
FC = Alignment force
2 2.5
Fig. 2-76 Axial force diagram at the shaft end, shaft height 132 (increased max. speed)
Technical Data and Characteristics
2.3 Cantilever and axial force diagrams
1PH7/2-115 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
SH 160, permissible axial force at the shaft end for increased max. speed
n = 1000 RPM
4000
8000
6000
Bearings, DE: 6212 FC = 400 N
Bearings, NDE: 6212
Lh = 8000 h
1.51 4.5 103
FA [N]
3000
2000
1000
FQAS [N]
FC = Alignment force
2 2.5
4000
3 3.5 4
Fig. 2-77 Axial force diagram at the shaft end, shaft height 160 (increased max. speed)
Technical Data and Characteristics
2.3 Cantilever and axial force diagrams
1PH7/2-116 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Technical Data and Characteristics
Notes
1PH7/3-117 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Motor Components
3.1 Thermal motor protection
Table 3-1 Features and technical data
Type KTY 84
Resistance when cold (20 °C) approx. 580 Ohm
Resistance when hot (100 °C): approx. 1000 Ohm
Connecting Using the encoder cable
Response temperature Warning < 120 °C
Alarm/shutdown at max. 155 °C 5 °C
The resistance change is proportional to the winding temperature change. For1PH7 motors, the temperature characteristic is taken into account in the closed-loop control.
The warning signal from the evaluation circuit in the SIMODRIVE drive convertercan be externally evaluated.
High short-time overload conditions require additional protective measures. This isdue to the thermal coupling time of the sensor. If the overload condition (4 M0)lasts longer than 4 s, additional protection should be provided.
The temperature sensor cables are included in the encoder cable.
!Warning
If the user carries-out an additional high-voltage test, then the ends of thetemperature sensor cables must be short-circuited before the test is carried-out! Ifthe test voltage is connected to only one terminal of the temperature sensor, it willbe destroyed.
3
Motor Components
3.1 Thermal motor protection
1PH7/3-118 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
!Warning
The integrated temperature sensor protects the induction motors against overloadconditions up to
4 I0 (60 K) and speed <> 0
Sufficient protection is no longer provided for thermally critical load situations, e.g.for a high overload condition at motor standstill. In this case, other protectivemeasures must be provided, e.g. a thermal overcurrent relay.
If they exist, reduced data for standstill are specified.
3
2
0
1
0200 300100
U [°C]
ID = 2 mA
R [kΩ]
Fig. 3-1 Resistance characteristic as a function of the KTY 84 thermistor temperature
Motor Components
3.2 Encoders
1PH7/3-119 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
3.2 Encoders
Incremental encoder 1 Vpp
Table 3-2 Features and technical data
Version Optical encoder system
Application Tachometer for speed actual value sensing Indirect measuring system for the positioncontrol loop
Coupling At the NDE, integrated in the motor
Output signals (refer to Fig. 3-2) Incremental track, sinusoidal Reference signal
Connecting Connector
Max. possible connecting cable length 50 m
Operating voltage + 5 V 5 %
Pulse number 2048
Output signals 1 Vpp
Accuracy 40’’
180° el. 90° el.
45° el.
360° el. =360° mech.
360° el. = 360° mech.
U [V]
ϕ
ϕ
ϕ
ϕ
ϕ
ϕ
2048
0
0
0
0
0
0
U [V]
A
B
R
C
D
R
Fig. 3-2 Signal sequence and assignment for a positive direction of rotation
(clockwise direction of rotation when viewing the drive end)
Motor Components
3.2 Encoders
1PH7/3-120 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Connection: 17 pin flange-mounted socket (pin contacts)
PIN No. Signal
1 A+2 A–3 R+4 not connected5 not connected6 not connected7 M–Encoder8 +Temp9 –Temp10 P–Encoder11 B+12 B–13 R–14 not connected15 0 V Sense16 5 V Sense17 not connected
45
6
78
91011
12
3
14
17 15
1612
13
When viewing the plug-in side(pins)
Mating connector: 6FX2003-0CE17 (socket)
Pre-assembled cable: 6FX002-2CA51-0
Length
8 = MOTION-CONNECT 8005 = MOTION-CONNECT 500
Motor Components
3.3 Gearboxes
1PH7/3-121 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
3.3 Gearboxes
A gearbox must be mounted, if
the drive torque is not sufficient at low speeds
the constant power range is not sufficient in order to utilize the cutting powerover the complete speed range.
In order to mount a gearbox, depending on the shaft height, various prerequisitesmust be fulfilled.
Prerequisites for mounting a gearbox for SH 100 to SH 160
Type of construction IM B5, IM B35 or IM V15
Shaft with key and full-key balancing
Prerequisites for mounting a gearbox for SH 180 and SH 225
IM B35 type of construction
Bearing design for coupling out-drive
Vibration severity level R
Flange and shaft accuracy R
Shaft with key and full-key balancing
Degree of protection IP 55, prepared for mounting a ZF gearbox
For questions regarding gearboxes, please directly contact the following:
ZF Friedrichshafen AGAntriebstechnik MaschinenbauD-88038 FriedrichshafenTelephone: (0 75 41) 77 – 0Telefax: (0 75 41) 77 – 34 70Internet: http://www.ZF-Group.de
Motor Components
3.3 Gearboxes
1PH7/3-122 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
3.3.1 Features
Gearbox features
Version as planetary gear
Gearbox efficiency: above 95 %
Gearboxes are available for motors, shaft heights 100 to 225
Selector gearboxes are available up to a drive output of 100 kW
Types of construction: IM B35 (IM V15) and IM B5 (IM V1) are possible
Note
1PH7 motors are only designed for stressing in accordance with the specifications(refer to the cantilever force diagram and maximum torque).
For drive units where, for example, they are mounted to the gearbox flange orgearbox enclosure, then for motors with type of construction IM B35, they must besupported at the NDE without subjecting the motor frame to any stress.
P = constant
PN
M = constant
M = constant
1
2
With gearbox
P = constant
nmax
P [kW]
n [RPM]
1 2
nN’ nN
Without gearbox
Logarithmic scale
nN Rated speednN’ Rated speed with two-stage selector gearboxnmax Max. permissible speedPN Rated power and also constant power of the three-phase motor
in the speed range from nn to nmax or nN’ to nmaxM Torque
Fig. 3-3 Speed-power diagram when using a two-stage selector gearbox to extend the
constant power speed range of AC main spindle drive motors
Motor Components
3.3 Gearboxes
1PH7/3-123 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
ExamplesAC motor without selector gearbox
For P = constant from nN = 1500 RPM to nmax = 6300 RPM a constant power con-trol range greater than 1:4 is possible.
AC motor with selector gearbox
For gearbox stage i1 = 4 and i2 = 1 a constant power control range of greater than1:16 is possible (nN’ = 375 RPM to nmax = 6300 RPM).
Gearbox mounted outside the spindle box
The following advantages are obtained by locating the gearbox outside the spindlebox:
Gearbox vibration is not transferred.
Separate lubricating systems for the main spindle (grease) and selector gear-box (oil).
No noise and no temperature fluctuations caused by the gearbox pinion wheelsin the spindle box.
Instead of using belts, the drive power can also be transferred from the gearboxout-drive using pinion (on request) or co-axially through an equalizing coupling.
Vibration severity level
Motor + gearbox: Tolerance R (acc. to DIN ISO 2373)
This is also valid if motor tolerance level S is ordered.
Motor Components
3.3 Gearboxes
1PH7/3-124 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
3.3.2 Gearbox design
195
42
1
3
2021
1718
16
15
10 11
1312146
78
9
1 Drive hub2 Adapter plate3 Radial shaft sealing ring4 Hub bearings5 Gearbox housing6 Sun wheel7 Hollow wheel8 Hollow wheel bearings9 Bearing housing10 Drive-out bearings11 Drive-out bearings12 Drive shaft13 Radial shaft sealing ring14 Planetary gear support15 Axial bearings with cup
springs16 Sleeve17 Selector fork18 Brake disk19 Solenoid20 Selector shaft21 Connecting plate
Fig. 3-4 Gearbox design for 1PH7, SH 100 to 160
For selector gearboxes, the following applies: Selector position I: i1 = 4Selector position II: i2 = 1
Both gearbox ratios are electrically selected and the setting is monitored using limitswitches.
The gearbox output shaft lies coaxially to the motor shaft.
Torsional play (measured at the gearbox output shaft):Standard: 30 angular minutes (for SH 100–160)
For milling and machining with interrupted cut, the following special versions areavailable on request for shaft heights 100 to 160:
Lower play: max. 20’
Lower play for increased requirements: max. 15’
Belt pulley
The belt pulley should be in the form of a cup wheel.
The gearbox output shaft has a flange with outer centering and tapped holes toretain the belt pulley.
The complete drive should be designed to be as stiff as possible using largebelt cross-sections. This has a positive impact on the smooth running propertiesof the drive.
Motor Components
3.3 Gearboxes
1PH7/3-125 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
3.3.3 Technical data
Table 3-3 Explanation of the connections
Type Motorshaft
height
Order No. Max.speednmax
Rated torque(S1 duty)
Max. torque (S6duty, 10 min. dutycycle, max. 60%
power-on duration)
Weight Drive-out
housing
10Drive Drive out Drive Drive out
a10
ZF desig. [mm] [RPM] [Nm]i=1[Nm]
i=4[Nm] [Nm]
i=1[Nm]
i=4[Nm] [kg]
2K120 100 2LG4312–... 80002)
90003)120 120 480 140 140 560 30 100
2K250 132 2LG4312–... 630080003)
250 250 1000 400 400 1600 62 116
2K300 160 2LG4320–... 630080003)
300 300 1200 400 400 1600 70 140
2K800 1) 184 2LG4250–... 4000 800 800 3200 900 900 3600 110 160
2K801 1) 186 2LG4260–... 4000 800 800 3200 900 900 3600 110 160
2K802 225 2LG4270–... 4000 800 800 3200 900 900 3600 110 160
Important
When designing the complete drive unit (motor with gear) the gearbox data isdecisive.
For the 1PH7167-2NB motor, for example, the torque should be reduced to300 Nm. For motors, shaft heights 100 and 132, the maximum motor speedshould be limited to the permissible gearbox speed 2K 120 / 2K 250.
Other binding technical data and engineering information/instructions (e.g. lubrication, temperature rise, permissible cantilever forces and examples), pleaserefer to Catalog 2K Gearboxes from ZF (Zahnradfabrik Friedrichshafen).
1) Can be supplied with holding brake (option).2) Higher maximum speeds from 8000 ... 9000 RPM for more than 20 % power-on duration possible when
using injection lubrication.3) Permissible with gearbox oil cooling for gearbox stage i = 1.
Motor Components
3.3 Gearboxes
1PH7/3-126 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
3.3.4 Electrical connections
Power supply for the selector unit: 24 V DC 10 %
The mechanical selector unit requires a separate supply.
PE
M – S1 S2
5 6432
Fig. 3-5 Circuit diagram
Connector (incl. in the scope of supply): Manufacturer, Harting; 7-pin + PE, typeHAN 7D
Table 3-4 Explanation of the connections
Connectorcontact
No.
Number and designation
In-put
Out-put
Voltage Current
2 and 3 1 selector unit 0 – 24 V DC Imax = 5 A (inrush current)
4 and 6 2 limitswitches
0 0 24 V DC Umax =42 V DC
Imax = 5 A
Table 3-5 Control sequence when selecting the gearbox stage
Gearbox stage selection Connector contact No.
2 3 4/5(S1)
5/6(S2)
When changing the ratio from stage i2 to i1
a Initial setting (f)b Selection sequencec Mechanical selection
carried-out up to endstop 1)
+24 V DC 0 V 00L
L00
When changing the ratio from stage i1 to i2
d Initial setting (c)e Selection sequencef Mechanical selection
carried-out up to endstop 1)
0 V +24 V DC L00
00L
L Contact closed 0 Contact open
1) A limit switch (S1 or S2) sends a signal to the control after selection to switch out the selector unit.
Motor Components
3.3 Gearboxes
1PH7/3-127 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
3.3.5 Gearbox stage selection
When changing the gearbox stage, the following information must be carefullyobserved:
Only change over the gearbox stage at standstill; e.g. while changing the tool.
During selection, the direction of rotation should be changed approximately5 times per second. The gears normally mesh at the first direction of rotationchange so that selection times of between 300 and 400 ms can be achieved.The “oscillation” function is provided in the SIMODRIVE 611 analog drive con-verter for this purpose.
The gearbox stage should not be changed without oscillation.
The motor may only start to accelerate 200 ms after the changeover has beencompleted.
The selection must be monitored using a time relay. After 2 s, the selectionmust be reversed, if the selection command was not able to be executed.A time limit of 10 s should be provided for approx. 4 to 5 additional selectionoperations.
No
No
Gearbox stage change was notsuccessful, shutdown the AC motor.
YesYes
Brake the AC motor from the operating speed down to zero speed.Maintain the controller enable at the transistor PWM converter.
Initiate the “oscillation” function (select terminal)
Selector unit for the gearbox stage change ON Selector unit back to the initial setting
Has the gearbox stage change been completed with
2 s? (checkback signal from limit switchS1 or S2 from the gearbox
selector unit)
Repeatgearboxstagechange.
Initiate a gearbox stage change
Cancel the “oscillation” function
Selector unit OFF after 200 ms Check the system
4 to 5 gearbox stage changeattempts executed?
(duration, approx. 10 s)
Gearbox stage change completed
Fig. 3-6 Function sequence when changing the gearbox stage
Motor Components
3.3 Gearboxes
1PH7/3-128 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
3.3.6 Lubrication
Splash lubrication
Oil level check: Visually using a sight glass
The oil level depends on the mounting position:
Horizontal and vertical: Center of the sight glass1)
For an inclined mounting position: Mark on the angled oil level indicator(additionally mount)
Oils which can be used: HLP 32 acc. to ISO-VG 68
Oil drain plugs: Provided at both sides
Circulating oil lubrication
Circulating oil lubrication is required for the following applications:
for continuous operation;
for operation over a longer period of time in one gearbox stage;
for intermittent operation with short no-load intervals;
The type of circulating oil lubrication depends on which operating temperature levelis required in use. Several applications require a low operating temperature level.We recommend, in these cases, circulating oil lubrication. The oil intake quantity isbetween 1 and 1.5 l/min with an oil pressure of approx. 1.5 bar. The diagrams 3-8and 3-9 indicate the approximate oil intake and outlet positions on the gearbox.The precise dimensions can be taken from the relevant mounting drawings.
The following gearboxes must always be operated with circulating oil lubrication(also refer to the mounting drawings):
Gearbox 2K800
Gearbox 2K801
Gearbox 2K802
Gearbox 2K2100
For the following gearboxes, circulating oil lubrication is required for V1 or V3 verti-cal mounting positions:
Gearbox 2K120
Gearbox 2K121
Gearbox 2K250
Gearbox 2K300
1) The oil volume data on the rating plate is only an approximate value
Motor Components
3.3 Gearboxes
1PH7/3-129 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
3.3.7 Flange dimensions
b d
l
h
s2
e2
s2
l
bda1
e2
Fig. 3-7 Flange dimension for AC motors (dimensions refer to Table 3-6)
Table 3-6 Flange dimension for AC motors
Two-stageselector gearbox
Motor framesize
Standard motor companion dimensionsselector gearbox size
h d l b1 e1 a1 s1
2 K 120 101, 103,105, 107
100–0.5 38 k6 80 180 j6 2150.5 – 140.2
2 K 250 131, 132,133, 135, 137
132–0.5 42 k6 110 250 h6 3000.5 – 180.2
2 K 300 163, 167 160–0.5 55 k6 110 300 h6 3500.5 – 180.2
2 K 800 184 180–0.5 60 k6 140 300 h6 3500.5 400 190.2
2 K 801 186 180–0.5 65 k6 140 350 h6 4000.5 450 190.2
2 K 802 224 225–0.5 75 k6 140 450 h6 5000.5 550 190.2
Motor Components
3.3 Gearboxes
1PH7/3-130 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
3.3.8 Connections, circulating oil lubrication, frame size 100
M
K
E
G
L
D
F
Fig. 3-8 Selector gearbox with selector unit for frame size 100
Table 3-7 Connections for circulating oil lubrication
Max.pressure
Connection,oil return
Connection,oil intake
Mounting position
0.2 bar1.5 bar
D
M (0.5 dm3/min)K/L (1.0 dm3/min)
V1 (closed version)
1.5 barDMain direction of rotation,
1.5 barMain direction of rotation,clockwise 1)
EMain direction of rotation,counter-clockwise1)
G (1.5 dm3/min)main direction of rotation,clockwiseF (1.5 dm3/min)main direction of rotation,counter-clockwise
B5V1
Note: Circulating oil lubrication is required for certain gearboxes and V1 or V3 vertical mounting posi-tions (refer to Subsection 3.3.6)
1) When viewing the gearbox drive from the motor
Motor Components
3.3 Gearboxes
1PH7/3-131 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
3.3.9 Connections, circulating oil lubrication, frame sizes 132 and 160
M
K
E
G
L
D
F
O
P
N
H
Fig. 3-9 Selector gearbox with selector unit for frame sizes 132 and 160
Table 3-8 Connections for circulating oil lubrication
Max.pressure
Connection,oil return
Connection,oil intake
Mounting position
2 bar H P (1.5 dm3/min) V3
0.5 bar1.5 bar
D
M (0.5 dm3/min)N (1.5 dm3/min)
V1 (closed version)
1.5 barDMain direction of rotation,
1.5 barMain direction of rotation,clockwise 1)
EMain direction of rotation,counter-clockwise 1)
G (1.5 dm3/min)main direction of rotation,clockwiseF (1.5 dm3/min)main direction of rotation,counter-clockwise
B5V1
Note: Circulating oil lubrication is required for certain gearboxes and V1 or V3 vertical mounting posi-tions (refer to Subsection 3.3.6)
Connection O is additionally possible (0.5 dm3/min)
1) When viewing the gearbox drive from the motor
Motor Components
3.3 Gearboxes
1PH7/3-132 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
3.3.10 Gearbox dimensions
!
1 Selector unit (24 V DC, 5 A solenoid)2 Vent valve2 Oil filling screw4A Oil sight glass or oil return for the main direction of rotation, counter-clockwise and circulating oil
lubrication4B Oil sight glass or oil return for the main direction of rotation, clockw. and circulating oil lubrication5 Oil drain plug for type of construction IM B356A Oil intake for the main direction of rotation, clockwise and circulating oil lubrication6B Oil intake for the main direction of rotation, counter-clockwise and circulating oil lubrication7 Oil intake for type of construction IM V15 (this must be connected-up)8 Oil intake for type of construction IM V369 Connector, Harting type HAN 8 U
a13
(cen
terin
g)
Fig. 3-10 AC motor and gearbox dimensions
Motor Components
3.3 Gearboxes
1PH7/3-133 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 3-9 Two-stage selector gearbox (dimensions, overview 1)
Motor Dimensions in mm
Size Type
a10 a11 a12 a13 e11 e12 f10 f11 f12 f13 f14 h m1 m2 m3 m4 m5
Drive-out
hous-ing
k6 g6 0.2 Shaftheight
100 1PH7 101 100 100 188 190 215 80 208 104 92 86.6 42.4 100 107 90.5 15 45 –
1PH7 103
1PH7 105
1PH7 107
132 1PH7 131 116 118 249 250 300 100 270 135 117 89.5 39.5 132 131 100 15 53 60
1PH7 133
1PH7 135
1PH7 137
160 1PH7 163 140 130 249 250 350 100 326 163 145 89.5 39.5 160 131 100 15 53 60
1PH7 167
Table 3-10 Two-stage selector gearbox (dimensions, overview 2)
Motor Dimensions in mm
Size Type n1 n2 n3 p40 p41 p42 p43 q21 q22 q23 q31 q32 q33 q34 q35 q36Size Type n1 n2 n3 p40 p41 p42 p43 q21 q22 q23 q31 q32 q33 q34 q35 q36
100 1PH7 101 17 80 30 209 92 108 12 42 57–67 75 15 17.5 – 116 26 10
1PH7 103
1PH7 105
1PH7 107
132 1PH7 131 30 108 35 268 78 136 12 46.9 57–66 72.1 20 22.5 129.5 142.5 29 10
1PH7 133
1PH7 135
1PH7 137
160 1PH7 163 30 135 35 324 78 164 17 48.2 74–83 69.8 20 22.5 – 142.5 29 10
1PH7 167
Motor Components
3.3 Gearboxes
1PH7/3-134 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Table 3-11 Two-stage selector gearbox (dimensions, overview 3)
Motor Dimensions in mm
Size Type q37 q38 q39 q40 q41 q42 q50 q51 s10 s11 s12 z10Thread
No. oftapped
Motor withgearboxThread tapped
holesgearbox,
totallengthlength
k1
100 1PH7 101 18 55 63 18 25 298 136 12 14 14 14 M8 8x45° 709
1PH7 103 709
1PH7 105 804
1PH7 107 804
132 1PH7 131 20 58 71 20 25 346.5 136 28 18 18 14 M12 12x30° 885
1PH7 133 885
1PH7 135 970
1PH7 137 970
160 1PH7 163 20 58 71 23 25 346.5 136 28 18 18 14 M12 12x30° 987
1PH7 167 1047
1PH7/4-135 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Dimension Drawings
For 1PH7 motors, for the dimensions, specified in the following table, the subse-quent deviations are permissible.
Table 4-1 Permissible dimension deviations
Dimen-sions
Permissible deviations
a,b up to 250 mm 0.75 mm
above 250 mm to 500 mm 1.0 mm
above 500 mm to 750 mm 1.5 mm
b1 up to 230 mm DIN 7160 j6above 230 mm h6
d, d1 up to 11 mm DIN 7160 j6above 11 mm up to 50 mm k6above 50 mm m6
e1 up to 200 mm 0.25 mm
above 200 mm up to 500 mm 0.5 mm
h above 50 mm up to 250 mm DIN 747 –0.5 mmabove 250 mm up to 500 mm –1.0 mm
i, i1, i2 up to 85 mm 0.75 mm
above 85 mm up to 130 mm 1.0 mm
above 130 mm up to 240 mm 1.5 mm
u, t, u1, t1 acc. to DIN 6885 Sheet 1
Note
Siemens AG reserves the right to change the dimensions of motors without priornotice as part of ongoing improvements to the mechanical design. Dimensiondrawings can go out-of-date. Updated dimension drawings can be requested at nocharge.
4
Dimension Drawings
4.1 Type of construction IM B3 with separately-driven fan
1PH7/4-136 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
4.1 Type of construction IM B3 with separately-driven fan
* o
nly
for
cabl
e ou
tlet,
ND
E
DE
ND
E
(250
+2
*(4
34)
*
20
90 b
rack
et
12+
0.5
64
12+
0.5
52
4020
2.5
+0.7
5
38k6
80–0
.3
705
411
+514
6
11
100–0.5
39
160
+0.7
5
136
196
41
10N9
263
120
13
Sig
nal c
onne
ctio
nP
g 11
Pg
29
Tole
ranc
e of
the
key
and
keyw
ay a
cc. t
o D
IN 6
885
T1
Sha
ft ce
nter
ing
DR
M12
acc
. to
DIN
332
Sha
ft en
d ac
c. to
DIN
429
55–N
Type
of c
onst
ruct
ion
IMB
3
fM
lfb c
hang
ed01
.13.
1999
Cat
1
A B C D E F
23
45
67
8
12
34
A B C D E
She
etN
o.
She
etqt
y.
Sca
le1:
3
Inde
xM
emo
Dat
eC
ont./
Chk
d.
Dat
e:C
onta
ct:
Che
cked
:A
&D
DS
A P
2 A
C2
06.0
5.19
96K
atze
nber
ger
Rep
lace
men
t fo
r
Sie
men
s A
G
Dim
ensi
on d
raw
ing
Type
of c
onst
ruct
ion
IMB
3
510.
3041
6.03
1 1
1PH
7 10
1 /
103
Sig
raph
DE
SIG
NM
ater
ial
Sem
i–fin
ishe
d pr
od./O
p.M
an.N
o.M
odel
/item
No.
f
Lipo
t
)
Fig. 4-1 1PH7101/1PH7103, type of construction IM B3 with separately-driven fan
Dimension Drawings
4.1 Type of construction IM B3 with separately-driven fan
1PH7/4-137 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
* o
nly
for
cabl
e ou
tlet,
ND
E
DE
ND
E
(250
+2)
*(5
29)
*
20
90 b
rack
et
12+
0.5 64
12+
0.5
52
4029
7.5
+0.
75
38k6
80–0
.3
705
506+
514
6
11
100–0.5
39
160+
0.75
136
196
41
10N9
358
120
13
Sig
nal
Pg
11P
g 29
Tole
ranc
e of
the
key
and
keyw
ay a
cc. t
o D
IN 6
885
T1
Sha
ft ce
nter
ing
DR
M12
acc
. to
DIN
332
Sha
ft en
d ac
c. to
DIN
429
55–N
Type
of c
onst
ruct
ion
IMB
3
fM
lfb c
hang
ed01
.03.
1999
Cat
1
A B C D E F
23
45
67
8
12
34
A B C D E
She
etN
o.
She
etqt
y.
Sca
le1:
3
Inde
xM
emo
Dat
eC
ont./
Chk
d.
Dat
e:C
onta
ct:
Che
cked
:A
&D
DS
A P
2 A
C2
06.0
5.19
96K
atze
nber
ger
Rep
lace
men
t fo
r
Sie
men
s A
G
Dim
ensi
on d
raw
ing
Type
of c
onst
ruct
ion
IMB
3
510.
3041
6.07
1 1
1PH
7 10
5 /
107
DE
SIG
NM
ater
ial
Sem
i–fin
ishe
d pr
od./O
p.M
an.N
o.M
odel
/item
No.
f
Lipo
t
conn
ectio
n
Fig. 4-2 1PH7105/1PH7107, type of construction IM B3
Dimension Drawings
4.1 Type of construction IM B3 with separately-driven fan
1PH7/4-138 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
bP
F d
imen
sion
s co
rrec
ted
24.0
1.19
97C
at
* o
nly
for
cabl
e ou
tlet,
ND
Ec
Cab
le o
utle
t ND
E a
dded12
.11.
97S
tf /
Li
DE
ND
E
dM
LFB
cha
nged
01.0
3.19
99C
at
(561
) *
55
12+
0.5
75
12+
0.5
63
5026
5.5
+1
42k611
0–0
.3
9010
538
+5
200
132–0.5
216+
0.75
52
177
260
14
45
12N9
341
143
17
Sig
nal
Pg
11P
g 36
Tole
ranc
e of
the
key
and
keyw
ay a
cc. t
o D
IN 6
885
T1
Sha
ft ce
nter
ing
DR
M16
acc
. to
DIN
332
Sha
ft en
d ac
c. to
DIN
429
55–N
Type
of c
onst
ruct
ion
IMB
3
aM
lfb c
hang
ed28
.06.
1996
Cat
1
A B C D E F
23
45
67
8
12
34
A B C D E
She
etN
o.
She
etqt
y.
Sca
le1:
3
Inde
xM
emo
Dat
eC
ont./
Chk
d.
Dat
e:C
onta
ct:
Che
cked
:A
&D
DS
A P
2 A
C2
06.0
5.19
96K
atze
nber
ger
Rep
lace
men
t fo
r
Sie
men
s A
G
Dim
ensi
on d
raw
ing
Type
of c
onst
ruct
ion
IMB
3
510.
3040
5.33
1 1
1PH
7 13
1 /
133
Sig
raph
DE
SIG
NM
ater
ial
Sem
i–fin
ishe
d pr
od./O
p.M
an.N
o.M
odel
/item
No.
d
Lipo
t
conn
ectio
n
Fig. 4-3 1PH7131/1PH7133, type of construction IM B3
Dimension Drawings
4.1 Type of construction IM B3 with separately-driven fan
1PH7/4-139 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
bP
F d
imen
sion
s co
rrec
ted
24.0
1.19
96C
at
* o
nly
for
cabl
e ou
tlet,
ND
Ec
Cab
le o
utle
t ND
E a
dded12
.11.
97S
tf /
Li
DE
ND
E
dM
LFB
cha
nged
01.0
3.19
99C
at
(646
) *
55
12+
0.5
7563
5035
0.5
+1
42k6
110 –
0.3
90
10
623
+5
200
132–0.5
216+
0.75
52
177
260
14
45
12N9
426
143
17
Sig
nal c
onne
ctio
n
Pg
11P
g 36
Tole
ranc
e of
the
key
and
keyw
ay a
cc. t
o D
IN 6
885
T1
Sha
ft ce
nter
ing
DR
M16
acc
. to
DIN
332
Sha
ft en
d ac
c. to
DIN
429
55–N
Type
of c
onst
ruct
ion
IMB
3
aM
lfb c
hang
ed28
.06.
1996
Cat
1
A B C D E F
23
45
67
8
12
34
A B C D E
She
etN
o.
She
etqt
y.
Sca
le1:
1
Inde
xM
emo
Dat
eC
ont./
Chk
d.
Dat
e:C
onta
ct:
Che
cked
:A
&D
DS
A P
2 A
C2
06.0
5.19
96K
atze
nber
ger
Rep
lace
men
t fo
r
Sie
men
s A
G
Dim
ensi
on d
raw
ing
Type
of c
onst
ruct
ion
IMB
3
510.
3040
5.37
1 1
1PH
7 13
5 /
137
Sig
raph
DE
SIG
NM
ater
ial
Sem
i–fin
ishe
d pr
od./O
p.M
an.N
o.M
odel
/item
No.
d
Lipo
t
12+
0.5
Fig. 4-4 1PH7135/1PH7137, type of construction IM B3
Dimension Drawings
4.1 Type of construction IM B3 with separately-driven fan
1PH7/4-140 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
bD
imen
sion
s co
rrec
ted07
.01.
1997
Cat
cP
F d
imen
sion
s co
rrec
ted
24.0
1.19
97C
at
DE
ND
E
* o
nly
for
cabl
e ou
tlet,
ND
Ed
Cab
le o
utle
t ND
E a
dded13
.11.
97S
tf /
Li
eM
LFB
cha
nged
01.0
3.19
99C
at
(663
) *
31
14+
0.5
81
14+
0.5
78
6434
6.5
+1
55m6
110
–0.3
9010
640
+5
220
17
160–0.5
62
254+
1
213
314
59
16N9
438
170
22
Sig
nal c
onne
ctio
nP
g 11
Pg
42
Tole
ranc
e of
the
key
and
keyw
ay a
cc. t
o D
IN 6
885
T1
Sha
ft ce
nter
ing
DR
M20
acc
. to
DIN
332
Sha
ft en
d ac
c. to
DIN
429
55–N
Type
of c
onst
ruct
ion
IMB
3
aM
lfb c
hang
ed28
.06.
1996
Cat
1
A B C D E F
23
45
67
8
12
34
A B C D E
She
etN
o.
She
etqt
y.
Sca
le1:
4
Inde
xM
emo
Dat
eC
ont./
Chk
d.
Dat
e:C
onta
ct:
Che
cked
:A
&D
DS
A P
2 A
C2
06.0
5.19
96K
atze
nber
ger
Rep
lace
men
t fo
r
Sie
men
s A
G
Dim
ensi
on d
raw
ing
Type
of c
onst
ruct
ion
IMB
3
510.
3042
4.63
1 1
1PH
7 16
3
Sig
raph
DE
SIG
NM
ater
ial
Sem
i–fin
ishe
d pr
od./O
p.M
an.N
o.M
odel
/item
No.
e
Lipo
t
Fig. 4-5 1PH7163, type of construction IM B3
Dimension Drawings
4.1 Type of construction IM B3 with separately-driven fan
1PH7/4-141 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
bD
imen
sion
s co
rrec
ted07
.01.
1997
Cat
cP
F d
imen
sion
s co
rrec
ted
24.0
1.19
97C
at
* o
nly
for
cabl
e ou
tlet,
ND
Ed
Cab
le o
utle
t ND
E a
dded13
.11.
97S
tf /
Li
DE
ND
E
eM
LFB
cha
nged
01.0
3.19
99C
at
(723
) *
31
14+
0.5
81
14+
0.5
78
6440
6.5
+1
55m6
110
–0.3
9010
700+
522
0
17
160–0.5
62
254+
1
213
314
59
16N9
498
170
22
Sig
nal c
onne
ctio
nP
g 11
Pg
42
Tole
ranc
e of
the
key
and
keyw
ay a
cc. t
o D
IN 6
885
T1
Sha
ft ce
nter
ing
DR
M20
acc
. to
DIN
332
Sha
ft en
d ac
c. to
DIN
429
55–N
Type
of c
onst
ruct
ion
IMB
3
aM
lfb c
hang
ed28
.06.
1996
Cat
1
A B C D E F
23
45
67
8
12
34
A B C D E
She
etN
o.
She
etqt
y.
Sca
le1:
4
Inde
xM
emo
Dat
eC
ont./
Chk
d.
Dat
e:C
onta
ct:
Che
cked
:A
&D
DS
A P
2 A
C2
06.0
5.19
96K
atze
nber
ger
Rep
lace
men
t fo
r
Sie
men
s A
G
Dim
ensi
on d
raw
ing
Type
of c
onst
ruct
ion
IMB
3
510.
3042
4.67
1 1
1PH
7 16
7
Sig
raph
DE
SIG
NM
ater
ial
Sem
i–fin
ishe
d pr
od./O
p.M
an.N
o.M
odel
/item
No.
e
Lipo
t
Fig. 4-6 1PH7167, type of construction IM B3
Dimension Drawings
4.1 Type of construction IM B3 with separately-driven fan
1PH7/4-142 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Fig. 4-7 1PH7184-NT/D/E/F/L, type of construction IM B3, air flow direction, DE ––> NDE
Dimension Drawings
4.1 Type of construction IM B3 with separately-driven fan
1PH7/4-143 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Fig. 4-8 1PH7184-NT/D/E/F/L, type of construction IM B3, air flow direction, NDE ––> DE
Dimension Drawings
4.1 Type of construction IM B3 with separately-driven fan
1PH7/4-144 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Fig. 4-9 1PH7186-NT/D/E, type of construction IM B3, air flow direction DE ––> NDE
Dimension Drawings
4.1 Type of construction IM B3 with separately-driven fan
1PH7/4-145 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Fig. 4-10 1PH7186-NT/D/E, type of construction IM B3, air flow flow direction NDE ––> DE
Dimension Drawings
4.1 Type of construction IM B3 with separately-driven fan
1PH7/4-146 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Fig. 4-11 1PH7224-NC/D/F, type of construction IM B3, air flow direction DE ––> NDE
Dimension Drawings
4.1 Type of construction IM B3 with separately-driven fan
1PH7/4-147 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Fig. 4-12 1PH7224-NC/D/F, type of construction IM B3, air flow direction NDE ––> DE
Dimension Drawings
4.2 Type of construction IM B5 with separately-driven fan
1PH7/4-148 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
4.2 Type of construction IM B5 with separately-driven fan
* o
nly
for
cabl
e ou
tlet,
ND
E
DE
ND
E
(434
) *
20
(250
+2)
*
90 b
rack
et38k6
180j6
4
10
196
80–0
.3
80+1
411
+5
120
146
136
250
215+0.5
10N9
415
70
Sig
nal
Pg
11P
g 29
Fla
nge
size
A25
0 ac
c. to
DIN
429
48S
haft
cent
erin
g D
R M
12 a
cc. t
o D
IN 3
32M
ount
ing
flang
e an
d sh
aft e
nd a
cc. t
o D
IN 4
2955
–NTy
pe o
f con
stru
ctio
n IM
B5
Tole
ranc
e of
the
key
and
keyw
ay a
cc. t
o D
IN 6
885
T1
fM
lfb c
hang
ed01
.13.
1999
Cat
1
A B C D E F
34
56
78
12
34
A B C D E
She
etN
o.
She
etqt
y.
Sca
le1:
3
Inde
xM
emo
Dat
eC
ont./
Chk
d.
Dat
e:C
onta
ct:
Che
cked
:A
&D
DS
A P
2 A
C2
17.0
4.19
96K
atze
nber
ger
Rep
lace
men
t fo
r
Sie
men
s A
G
Dim
ensi
on d
raw
ing
Type
of c
onst
ruct
ion
IMB
5
510.
3041
7.03
1 1
1PH
7 10
1 /
103
Sig
raph
DE
SIG
NM
ater
ial
Sem
i–fin
ishe
d pr
od./O
p.M
an.N
o.M
odel
/item
No.
f
Lipo
t
conn
ectio
n
Fig. 4-13 1PH7101/1PH7103, type of construction IM B5
Dimension Drawings
4.2 Type of construction IM B5 with separately-driven fan
1PH7/4-149 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
* o
nly
for
cabl
e ou
tlet,
ND
E
DE
ND
E
(529
) *
20
(250
+2)
*
90 b
rack
et
38k6
180j64
10
196
80–0
.3
80+
1
506
+5
120
146
136
10N9
415
70
Sig
nal
conn
ectio
n
Pg
11P
g 29
Fla
nge
size
A25
0 ac
c. to
DIN
429
48S
haft
cent
erin
g D
R M
12 a
cc. t
o D
IN 3
32M
ount
ing
flang
e an
d sh
aft e
nd a
cc. t
o D
IN 4
2955
–NTy
pe o
f con
stru
ctio
n IM
B5
Tole
ranc
e of
the
key
and
keyw
ay a
cc. t
o D
IN 6
885
T1
fM
lfb c
hang
ed01
.03.
1999
Cat
1
A B C D E F
34
56
78
12
34
A B C D E
She
etN
o.
She
etqt
y.
Sca
le1:
3
Inde
xM
emo
Dat
eC
ont./
Chk
d.
Dat
e:C
onta
ct:
Che
cked
:A
&D
DS
A P
2 A
C2
17.0
4.19
96K
atze
nber
ger
Rep
lace
men
t fo
r
Sie
men
s A
G
Dim
ensi
on d
raw
ing
Type
of c
onst
ruct
ion
IMB
5
510.
3041
7.07
1 1
1PH
7 10
5 /
107
Sig
raph
DE
SIG
NM
ater
ial
Sem
i–fin
ishe
d pr
od./O
p.M
an.N
o.M
odel
/item
No.
f
Lipo
t
215+0.5
Fig. 4-14 1PH7105/1PH7107, type of construction IM B5
Dimension Drawings
4.2 Type of construction IM B5 with separately-driven fan
1PH7/4-150 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
bP
F d
imen
sion
s co
rrec
ted
24.0
1.19
96C
at*
onl
y fo
r ca
ble
outle
t, N
DE
DE
ND
E
cC
able
out
let N
DE
add
ed13.1
1.97
Stf
/ Li
dM
LFB
cha
nged
01.0
3.19
99C
at
(561
)*
55
42k6
250h6
5
16
260
110 –
0.3
110
+2
538
+5
143
200
177
350
12N9
4510
90
Sig
nal
Pg
11P
g 36
Fla
nge
size
A35
0 ac
c. to
DIN
429
48S
haft
cent
erin
g D
R M
16 a
cc. t
o D
IN 3
32M
ount
ing
flang
e an
d sh
aft e
nd a
cc. t
o D
IN 4
2955
–NTy
pe o
f con
stru
ctio
n IM
B5
Tole
ranc
e of
the
key
and
keyw
ay a
cc. t
o D
IN 6
885
T1
aM
lfb c
hang
ed28
.06.
1996
Cat
1
A B C D E F
34
56
78
12
34
A B C D E
She
etN
o.
She
etqt
y.
Sca
le1:
3
Inde
xM
emo
Dat
eC
ont./
Chk
d.
Dat
e:C
onta
ct:
Che
cked
:A
&D
DS
A P
2 A
C2
17.0
4.19
96K
atze
nber
ger
Rep
lace
men
t fo
r
Sie
men
s A
G
Dim
ensi
on d
raw
ing
Type
of c
onst
ruct
ion
IMB
5
510.
3040
6.33
1 1
1PH
7 13
1 /
133
Sig
raph
DE
SIG
NM
ater
ial
Sem
i–fin
ishe
d pr
od./O
p.M
an.N
o.M
odel
/item
No.
d
Lipo
t
300+0.5
conn
ectio
n
Fig. 4-15 1PH7131/1PH7133, type of construction IM B5
Dimension Drawings
4.2 Type of construction IM B5 with separately-driven fan
1PH7/4-151 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
bP
F d
imen
sion
s co
rrec
ted
24.0
1.19
97C
at
cC
able
out
let N
DE
add
ed13.1
1.97
Stf
/ Li
DE
ND
E
dM
LFB
cha
nged
01.0
3.19
99C
at
(646
) *
55
42k6
250h6
5
16
260
110
–0.3
110
+2
623
+5
143
200
177
350
12N9
45
1090
Sig
nal
conn
ectio
n
Pg
11P
g 36
aM
lfb c
hang
ed28
.06.
1996
Cat
1
A B C D E F
34
56
78
12
34
A B C D E
Sh
eet
No
.
Sh
eet
qty
.
Sca
le1:
3
Inde
xM
emo
Dat
eC
ont./
Chk
d.
Dat
e:C
onta
ct:
Che
cked
:A
&D
DS
A P
2 A
C2
17.0
4.19
96K
atze
nber
ger
Rep
lace
men
t fo
r
Sie
men
s A
G
Dim
ensi
on d
raw
ing
Type
of c
onst
ruct
ion
IMB
5
510.
3040
6.37
1 1
1PH
7 13
5 /
137
Sig
raph
DE
SIG
NM
ater
ial
Sem
i–fin
ishe
d pr
od./O
p.M
an.N
o.M
odel
/item
No.
d
Lipo
t
* o
nly
for
cabl
e ou
tlet,
ND
E
Fla
nge
size
A35
0 ac
c. to
DIN
429
48S
haft
cent
erin
g D
R M
16 a
cc. t
o D
IN 3
32M
ount
ing
flang
e an
d sh
aft e
nd a
cc. t
o D
IN 4
2955
–NTy
pe o
f con
stru
ctio
n IM
B5
Tole
ranc
e of
the
key
and
keyw
ay a
cc. t
o D
IN 6
885
T1
300+0.5
Fig. 4-16 1PH7135/1PH7137, type of construction IM B5
Dimension Drawings
4.3 Type of construction IM B35 with separately-driven fan
1PH7/4-152 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
4.3 Type of construction IM B35 with separately-driven fan
* o
nly
for
cabl
e ou
tlet,
ND
E
DE
ND
E
aD
imen
sion
s 23
4 in
250
+2
15.1
2.97
Stf
/ Li
bTe
xt c
orre
cted
13.0
7.98
Di/C
at
cM
LFB
cha
nged
01.1
3.19
99C
at
(435
+5)
*
20
(250
+2
) *
160
+0.7
5
39
196
100–0.5
12+
0.5
64
12+
0.5
52
202.
5+1
13
40
263
11
90 b
rack
et38k6
180j6
4
196
80–0
.3
80+1
411+
5
120
146
136
250
215+0.5
10N9
415
70
Sig
nal
conn
ectio
nP
g 11
Pg
29
Fla
nge
size
A25
0 ac
c. to
DIN
429
48S
haft
cent
erin
g D
R M
12 a
cc. t
o D
IN 3
32M
ount
ing
flang
e an
d sh
aft e
nd a
cc. t
o D
IN 4
2955
–NTy
pe o
f con
stru
ctio
n IM
B35
Tole
ranc
e of
the
key
and
keyw
ay a
cc. t
o D
IN 6
885
T1
1
A B C D E F
34
56
78
12
34
A B C D E
She
etN
o.
She
etqt
y.
Sca
le1:
3
Inde
xM
emo
Dat
eC
ont./
Chk
d.
Dat
e:C
onta
ct:
Che
cked
:A
&D
DS
A P
2 A
C2
13.1
1.19
97S
tum
pf
Rep
lace
men
t fo
r
Sie
men
s A
G
Dim
ensi
on d
raw
ing
Type
of c
onst
ruct
ion
IMB
35
510.
3041
8.03
1 1
1PH
7 10
1 /
103
Sig
raph
DE
SIG
NM
ater
ial
Sem
i–fin
ishe
d pr
od./O
p.M
an.N
o.M
odel
/item
No.
c
Lipo
t
Fig. 4-17 1PH7101/1PH7103, type of construction IM B35
Dimension Drawings
4.3 Type of construction IM B35 with separately-driven fan
1PH7/4-153 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
* o
nly
for
cabl
e ou
tlet,
ND
E
DE
ND
E
aD
imen
sion
s 23
4 in
250
+2
16.1
2.97
Stf
/ Li
bTe
xt c
orre
cted
13.0
7.98
Di/C
at
cM
LFB
cha
nged
01.0
3.19
99C
at
(529
+5
) *
20
(250
+2)
*
13
4029
7.5
+1
12+
0.5
64
358
5216
0+0
.75
196
100–0.5
11
39
90 b
rack
et
38k6
180j64
196
80–0
.3
80+1
506
+5
120
146
136
250
215+0.5
10N9
415
70
Sig
nal
conn
ectio
n
Pg
11P
g 29
Fla
nge
size
A25
0 ac
c. to
DIN
429
48S
haft
cent
erin
g D
R M
12 a
cc. t
o D
IN 3
32M
ount
ing
flang
e an
d sh
aft e
nd a
cc. t
o D
IN 4
2955
–NTy
pe o
f con
stru
ctio
n IM
B35
Tole
ranc
e of
the
key
and
keyw
ay a
cc. t
o D
IN 6
885
T1
1
A B C D E F
34
56
78
12
34
A B C D E
She
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97S
tum
pf
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men
t fo
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Sie
men
s A
G
Dim
ensi
on d
raw
ing
Type
of c
onst
ruct
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IMB
35
510.
3041
8.07
1 1
1PH
7 10
5 /
107
Sig
raph
DE
SIG
NM
ater
ial
Sem
i–fin
ishe
d pr
od./O
p.M
an.N
o.M
odel
/item
No.
c
Lipo
t
+0.
512
+0.
5
Fig. 4-18 1PH7105/1PH7107, type of construction IM B35
Dimension Drawings
4.3 Type of construction IM B35 with separately-driven fan
1PH7/4-154 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
* o
nly
for
cabl
e ou
tlet,
ND
E
DE
ND
E
a
aM
LFB
cha
nged
01.0
3.19
99C
at
(561
)
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17
63
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14
341
52
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5
260
110
–0.3
110
+2
538
+5
143
200
177
350
12N9
4510
90
Sig
nal
Pg
11P
g 36
Fla
nge
size
A35
0 ac
c. to
DIN
429
48S
haft
cent
erin
g D
R M
16 a
cc. t
o D
IN 3
32M
ount
ing
flang
e an
d sh
aft e
nd a
cc. t
o D
IN 4
2955
–NTy
pe o
f con
stru
ctio
n IM
B35
Tole
ranc
e of
the
key
and
keyw
ay a
cc. t
o D
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885
T1
1
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34
56
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t fo
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Sie
men
s A
G
Dim
ensi
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raw
ing
Type
of c
onst
ruct
ion
IMB
35
510.
3040
7.33
1 1
1PH
7 13
1 /
133
Sig
raph
DE
SIG
NM
ater
ial
Sem
i–fin
ishe
d pr
od./O
p.M
an.N
o.M
odel
/item
No.
Lipo
t
12+
0.5
300+0.5
conn
ectio
n
Fig. 4-19 1PH7131/1PH7133, type of construction IM B35
Dimension Drawings
4.3 Type of construction IM B35 with separately-driven fan
1PH7/4-155 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
* o
nly
for
cabl
e ou
tlet,
ND
E
DE
ND
E
aM
LFB
cha
nged
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at
(646
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17
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0.5
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0.5
75
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5+
150
426
14
63
52
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5
260
110
–0.3
110
+2
623
+5
143
200
177
350
12N9
45
1090
Sig
nal
conn
ectio
n
Pg
11P
g 36
Fla
nge
size
A35
0 ac
c. to
DIN
429
48S
haft
cent
erin
g D
R M
16 a
cc. t
o D
IN 3
32M
ount
ing
flang
e an
d sh
aft e
nd a
cc. t
o D
IN 4
2955
–NTy
pe o
f con
stru
ctio
n IM
B35
Tole
ranc
e of
the
key
and
keyw
ay a
cc. t
o D
IN 6
885
T1
1
A B C D E F
34
56
78
12
34
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t fo
r
Sie
men
s A
G
Dim
ensi
on d
raw
ing
Type
of c
onst
ruct
ion
IMB
35
510.
3040
7.37
1 1
1PH
7 13
5 /
137
Sig
raph
DE
SIG
NM
ater
ial
Sem
i–fin
ishe
d pr
od./O
p.M
an.N
o.M
odel
/item
No.
a
Lipo
t
300+0.5
Fig. 4-20 1PH7135/1PH7137, type of construction IM B35
Dimension Drawings
4.3 Type of construction IM B35 with separately-driven fan
1PH7/4-156 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
bD
imen
sion
s co
rrec
ted07
.01.
1997
Cat
cP
F d
imen
sion
s co
rrec
ted
24.0
1.19
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at*
onl
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r ca
ble
outle
t, N
DE
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able
out
let N
DE
add
ed13.1
1.97
Stf
/ Li
DE
ND
E
eM
LFB
cha
nged
01.0
3.19
99C
at
(663
) *
31
110
–0.3
110
+2
1090
55m6
300h6
14+
0.5
78
6434
6.5
+1
14+
0.5
81
5
19
640+
522
0
170
16N9
59
400
160–0.5
213
254+
1
314
62
17
438
22
Sig
nal c
onne
ctio
nP
g 11
Pg
42
Tole
ranc
e of
the
key
and
keyw
ay a
cc. t
o D
IN 6
885
T1
Fla
nge
size
A40
0 ac
c. to
DIN
429
48S
haft
cent
erin
g D
R M
20 a
cc. t
o D
IN 3
32M
ount
ing
flang
e an
d sh
aft e
nd a
cc. t
o D
IN 4
2955
–NTy
pe o
f con
stru
ctio
n IM
B35
aM
lfb c
hang
ed28
.06.
1996
Cat
1
A B C D E F
23
45
67
8
12
34
A B C D E
She
etN
o.
She
etqt
y.
Sca
le1:
4
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xM
emo
Dat
eC
ont./
Chk
d.
Dat
e:C
onta
ct:
Che
cked
:A
&D
DS
A P
2 A
C2
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5.19
96K
atze
nber
ger
Rep
lace
men
t fo
r
Sie
men
s A
G
Dim
ensi
on d
raw
ing
Type
of c
onst
ruct
ion
IMB
35
510.
3042
5.63
1 1
1PH
7 16
3
Sig
raph
DE
SIG
NM
ater
ial
Sem
i–fin
ishe
d pr
od./O
p.M
an.N
o.M
odel
/item
No.
e
Lipo
t
+0.5350
Fig. 4-21 1PH7163, type of construction IM B35
Dimension Drawings
4.3 Type of construction IM B35 with separately-driven fan
1PH7/4-157 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
bD
imen
sion
s co
rrec
ted07
.01.
1997
Cat
cP
F d
imen
sion
s co
rrec
ted
24.0
1.19
97C
at
DE
ND
E
* o
nly
for
cabl
e ou
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ND
Ed
Cab
le o
utle
t ND
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dded13
.11.
97S
tf /
Li
eM
LFB
cha
nged
01.0
3.19
99C
at
(723
) *
31
110
–0.3
110
+2
1090
55m6
300h6
14+
0.5
78
6440
6.5
+1
14+
0.5
81
5
700
+5
220
170
16N9
59
400
160–0.5
213
254+
1
314
62
17
498
22
Sig
nal c
onne
ctio
n
Pg
11P
g 42
Tole
ranc
e of
the
key
and
keyw
ay a
cc. t
o D
IN 6
885
T1
Fla
nge
size
A40
0 ac
c. to
DIN
429
48S
haft
cent
erin
g D
R M
20 a
cc. t
o D
IN 3
32M
ount
ing
flang
e an
d sh
aft e
nd a
cc. t
o D
IN 4
2955
–NTy
pe o
f con
stru
ctio
n IM
B35
aM
lfb c
hang
ed28
.06.
1996
Cat
1
A B C D E F
23
45
67
8
12
34
A B C D E
She
etN
o.
She
etqt
y.
Sca
le1:
4
Inde
xM
emo
Dat
eC
ont./
Chk
d.
Dat
e:C
onta
ct:
Che
cked
:A
&D
DS
A P
2 A
C2
06.0
5.19
96K
atze
nber
ger
Rep
lace
men
t fo
r
Sie
men
s A
G
Dim
ensi
on d
raw
ing
Type
of c
onst
ruct
ion
IMB
35
510.
3042
5.67
1 1
1PH
7 16
7
Sig
raph
DE
SIG
NM
ater
ial
Sem
i–fin
ishe
d pr
od./O
p.M
an.N
o.M
odel
/item
No.
e
Lipo
t
+0.5350
Fig. 4-22 1PH7167, type of construction IM B35
Dimension Drawings
4.3 Type of construction IM B35 with separately-driven fan
1PH7/4-158 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Fig. 4-23 1PH7184-NT/D/E/F/L, type of construction IM B35, air flow direction DE ––> NDE, A400
Dimension Drawings
4.3 Type of construction IM B35 with separately-driven fan
1PH7/4-159 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Fig. 4-24 1PH7184-NT/D/E/F/L, type of construction IM B35, air flow direction NDE ––> DE, A400
Dimension Drawings
4.3 Type of construction IM B35 with separately-driven fan
1PH7/4-160 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Fig. 4-25 1PH7184-NT/D/E/F/L, type of construction IM B35, air flow direction DE ––> NDE, A450
Dimension Drawings
4.3 Type of construction IM B35 with separately-driven fan
1PH7/4-161 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Fig. 4-26 1PH7184-NT/D/E/F/L, type of construction IM B35, air flow direction NDE ––> DE, A450
Dimension Drawings
4.3 Type of construction IM B35 with separately-driven fan
1PH7/4-162 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Fig. 4-27 1PH7186-NT/D/E, type of construction IM B35, air flow direction DE ––> NDE, A450
Dimension Drawings
4.3 Type of construction IM B35 with separately-driven fan
1PH7/4-163 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Fig. 4-28 1PH7186-NT/D/E, type of construction IM B35, air flow direction NDE ––> DE, A450
Dimension Drawings
4.3 Type of construction IM B35 with separately-driven fan
1PH7/4-164 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Fig. 4-29 1PH7224-NC/D/F, type of construction IM B35, air flow direction DE ––> NDE
Dimension Drawings
4.3 Type of construction IM B35 with separately-driven fan
1PH7/4-165 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Fig. 4-30 1PH7224-NC/D/F, type of construction IM B35, air flow direction NDE ––> DE
Dimension Drawings
4.3 Type of construction IM B35 with separately-driven fan
1PH7/4-166 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Notes
A-167 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
References
General Documentation
/BU/ Catalog NC 60
Automation Systems for Machine ToolsOrder No.: E86060-K4460-A101-A9-7600
Electronic Documentation
/CD1/ DOC ON CD
The SINUMERIK System(includes all SINUMERIK 840D/810D and SIMODRIVE 611D publications)Order No.: 6FC5 298-7CA00-0BG0
Manufacturer/Service Documentation
/PJAS/ Planning Guide, AC Induction Motors
SIMODRIVE, MASTERDRIVES VC/MCContents: General Section, 1PH2, 1PH4, 1PH7 for SIMODRIVE, 1PH7 for MASTERDRIVES, 1PL6 for MASTERDRIVES VC/MCOrder No.: 6SN1197-0AC61-0BP0
/ASAL/ Planning Guide, AC Induction Motors
SIMODRIVE, MASTERDRIVES VC/MCAC Induction Motors, General SectionOrder No.: 6SN1197-0AC62-0BP0
/APH2/ Planning Guide, AC Induction Motors
SIMODRIVEAC Induction Motors 1PH2Order No.: 6SN1197-0AC63-0BP0
A
References
A-168 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
/APH4/ Planning Guide, AC Induction Motors
SIMODRIVEAC Induction Motors 1PH4 Order No.: 6SN1197-0AC64-0BP0
/APH7S/ Planning Guide, Induction Motors
SIMODRIVEInduction Servomotors, 1PH7 Main Spindle Drives Order No.: 6SN1197-0AC65-0BP1
/APH7M/ Planning Guide, AC Induction Motors
MASTERDRIVES VC/MCAC Induction Motors 1PH7 Order No.: 6SN1197-0AC66-0BP0
/APL6/ Planning Guide, Induction Motors
MASTERDRIVES VC/MCAC Induction Motors 1PH6 Order No.: 6SN1197-0AC67-0BP0
/PJM2/ Planning Guide, Synchronous Servomotors
SIMODRIVE 611, MASTERDRIVES MCContents: General Section, 1FT5, 1FT6, 1FK6, 1FK7Order No: 6SN1197-0AC20-0BP0
/PJAL/ Planning Guide, Synchronous Servomotors
SIMODRIVE 611, MASTERDRIVES MCSynchronous Servomotors, General SectionOrder No.: 6SN1197-0AD07-0BP0
/PFK7/ Planning Guide, Synchronous Servomotors
SIMODRIVE 611, MASTERDRIVES MCSynchronous Servomotors 1FK7 Order No.: 6SN1197-0AD06-0BP0
/PFK6/ Planning Guide, Synchronous Servomotors
SIMODRIVE 611, MASTERDRIVES MCSynchronous Servomotors 1FK6 Order No.: 6SN1197-0AD05-0BP0
References
A-169 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
/PFT5/ Planning Guide, Synchronous Servomotors
SIMODRIVESynchronous Servomotors 1FT5 Order No.: 6SN1197-0AD01-0BP0
/PFT6/ Planning Guide, Synchronous Servomotors
SIMODRIVE 611, MASTERDRIVES MCSynchronous Servomotors 1FT6 Order No.: 6SN1197-0AD02-0BP0
/PPM/ Planning Guide, Hollow Shaft Motors
SIMODRIVEHollow Shaft Motors for 1PM6 and 1PM4Main Spindle DrivesOrder No: 6SN1197-0AD03-0BP0
/PJFE/ Planning Guide, Synchronous Built-in Motors
SIMODRIVEThree-Phase AC Motors for Main Spindle Drives1FE1 Built-in Synchronous Motors Order No.: 6SN1197-0AC00-0BP1
/PMS/ Planning Guide, Motor Spindle
SIMODRIVEECO Motor Spindle 2SP1Order No: 6SN1197-0AD04-0BP1
/PKTM/ Planning Guide, Complete Torque Motors
SIMODRIVE1FW3 Complete Torque Motors Order No.: 6SN1197-0AC70-0BP1
/PJTM/ Planning Guide, Integrated Torque Motors
SIMODRIVE1FW6 Integrated Torque Motors Order No: 6SN1197-0AD00-0BP2
References
A-170 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
/PJLM/ Planning Guide, Linear Motors
SIMODRIVE1FN1 and 1FN3 Linear MotorsOrder No.: 6SN1197-0AB70-0BP3
/PJU/ Planning Guide, Inverters
SIMODRIVE 611InvertersOrder No.: 6SN1197-0AA00-0BP5
/EMV/ Planning Guide, EMC Installation Guideline
SINUMERIK, SIROTEC, SIMODRIVEOrder No: 6FC5297-0AD30-0BP1
Operating Instructions
Operating Instructions 1PH7, SH 100 to SH 160
03.2004 Edition,Order No.: 610. 43.429.21c
Operating Instructions 1PH718
Order No.: German A5E00215737A
Order No.: English A5E00215729A
Order No.: Spanish A5E00215745A
Order No.: French A5E00215713A
Order No.: Italian A5E00215741A
Order No.: Swedish A5E00215747A
Operating Instructions 1PH722
Order No.: German A5E00264361A
Order No.: English A5E00264369A
Order No.: Spanish A5E00264372A
Order No.: French A5E00264534A
Order No.: Italian A5E00264543A
Order No.: Swedish A5E00264554A
Index–171 Siemens AG, 2004. All rights reservedInduction Motors, 1PH7 (APH7S) – 05.04 Edition
Index
AApplications, 1PH7/1-13Axial force diagrams, 1PH7/2-98
BBearing change intervals, 1PH7/1-28Bearing version, 1PH7/1-28
CCantilever force diagrams, 1PH7/2-98Commissioning software, viConnecting-up information, 1PH7/1-24Connecting-up three-phase motors, 1PH7/1-23Continuous speed, 1PH7/1-30Cooling, 1PH7/1-21Cooling-medium temperature, 1PH7/1-22
DDanger and warning information, viiiDimension Drawings, 1PH7/4-135Documentation
Danger and warning information, viiiDesign, v
EElectrical connections, 1PH7/1-23Encoders, 1PH7/3-119ESDS instructions, x
FFan mounting, 1PH7/1-21Features, 1PH7/1-13
GGearbox, 1PH7/3-121
Electrical connection, 1PH7/3-126Features, 1PH7/3-122Flange dimensions, 1PH7/3-129Lubrication, 1PH7/3-128Prerequisites, 1PH7/3-121Technical. data, 1PH7/3-125
Gearbox dimensions, 1PH7/3-132Gearbox stage selection, 1PH7/3-127
HHotline, vi
IIncreased max. speed, 1PH7/2-35Incremental encoders, 1PH7/3-119
KKTY 84, 1PH7/3-117
MMaximum rotational speed, 1PH7/2-35Moment of inertia, 1PH7/2-35Motor Components, 1PH7/3-117Motor rating plate, 1PH7/1-20Mounting, 1PH7/1-32
OOptions, 1PH7/1-16
Index
Index–172 Siemens AG, 2004. All rights reserved
Induction Motors, 1PH7 (APH7S) – 05.04 Edition
Order numberCore types, 1PH7/1-18SH 100 to 160, 1PH7/1-17SH 180 to 225, 1PH7/1-19
PPower cable, 1PH7/1-23
Cross-sections, 1PH7/1-25Power de-rating, 1PH7/1-22Power-speed diagrams, 1PH7/2-38
RRated current, 1PH7/2-35Rated speed, 1PH7/2-35Rating plate, 1PH7/1-20
SSelector gearbox, dimensions, 1PH7/3-133
Separately-driven fanConnecting, 1PH7/1-26Recommended connection, 1PH7/1-27
Speed-torque diagrams, 1PH7/2-38Standstill current, 1PH7/2-35Structure of the documentation, vSupport, vi
TTechnical Data, 1PH7/2-35Technical design, 1PH7/1-14Technical Support, viTerminal box, 1PH7/1-26Thermal motor protection, 1PH7/3-117
VVibration severity limit values, 1PH7/1-31
From
Name
Company/Dept.
Address
Zip code: Town:
Phone: /
Suggestions
Corrections
For Publication/Manual:
Induction Motors1PH7 Main Spindle Drives
Manufacturer/Service Documentation
Planning Guide
Order No.: 6SN1197-0AC65-0BP1Edition: 05.2004
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Order No.: 6SN1197-0AC65-0BP1
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