STROETER SC 1500/5 Скачать руководство пользователя страница 6 | Manualshive

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STROETER SC 1500/5 Скачать руководство пользователя страница 6

Standard user guide

V51-00-V19 eng

-6-

Rights to changes reserved

1.5 Power and torque curves

When setting up a drive the torque sequence must be considered in the wanted regulation area.
This can roughly be divided into 3 groups:

•

Constantly torque in all regulation area e.g. conveyer

•

Rising torque at speed acceleration e.g. Pumps or ventilation.

•

Falling torque at speed acceleration e.g. drilling machines or tools machines.
Diagram below might help to choose the right function and power selection.

Power and torque curve
Zone 1:

Power rises linear with frequency. Rotation torque M is constant (M

n

).

Warning:

By continuous run with motor torque below 20 Hz, use a motor size larger or a motor with

ventilation.

Zone 2:

Power is constant (P

n

)

Torque falls with rising frequency

f

f

M

Knæk

∗

=

n

M

Zone 3:

Power and torque falls with rising frequency

f

f

P

Knæk

∗

∗

=

n

P

5

,

1

2

2

n

M

5

,

1

f

f

M

Knæk

∗

∗

=

Fig. 1 Fig. 2

Frequency / Voltage point at 50 Hz

Frequency / Voltage point at 87 Hz

If you choose to set the systems max frequency to
75 Hz instead of 50. Is it possible to equalize the
smaller motor torque with a larger gearing in the
gear.
Advantages:

•

1,5 times larger regulations area

•

1,5 times larger torque below 50Hz

•

Higher start torque.

•

Ventilation of motor might not be needed.

Suitable for 3 phased mains supply( SC3- ) and
motor voltages at 230 / 400V by setting the motor in
delta

∆

. This way you take advantage of the linear

V/F curve until 87Hz. The motor is supplied with
230V at 50 Hz and 400V at 87Hz
Advantages:

•

1,73 times larger regulations area

•

1,73 times larger motor power at 1,73 times
larger frequency inverter power.

•

100% torque from above 87 Hz.

[Hz]

50

20

10

30

40

50

60

100

70

80

90

110

120

150

[%]

P/M

P

M

50

20

10

30

50

40

60

80

70

90

[Hz]

110

100

120

P/M

100

150

[%]

P

M

230

400

[V]

100

Zone 1 Zone 2 Zone 3

Zone 1 Zone 2

Motor-
voltage

Frekvens

knækpunkt

Moment overskud f < 75Hz

Kun under start
(Boost)

Kun under start
(Boost)

Frekvens knækpunkt 87 Hz

Moment forhøjelse i
forhold til Fig. 1

Moment forhøjelse i
forhold til Fig. 1

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Содержание SC 1500/5

Страница 1: ...C Motor Controller With integrated Speed control PI regulation Positioning Synchronous Control Torque limiting STR TER Antriebstechnik GmbH 40549 D sseldorf Krefelder Stra e 117 Telefon 0211 95600 0 4...

Страница 2: ...nuals for special program must be ordered separately It is very important that this manual is read before connecting the controller because of Personal safety Product lifetime Reliability Optimum perf...

Страница 3: ...rams for PI regulation Pressure temperature etc Positioning Digital synchronous drive Torque limiting Supervision Serial communication with PC or PLC Special software with custom designed PLC function...

Страница 4: ...1 5 kW 1 1 kW 2 2 kW Output voltage 3 x 0 230 V 3 x 0 400 V Output frequency 0 400 Hz 0 400 Hz Nominal current 3 x 4 A 3 x 7 A 3 x 3 6 A 3 x 5 5 A Overload 150 in 30 sec 150 in 30 sec Max current lim...

Страница 5: ...1500 5 and SC3 2200 8 298 104 133 140 96 86 72 6 SC3 1100 5 268 104 133 140 96 56 72 6 SC3 4000 5 298 186 155 200 176 60 37 6 SC3 5500 5 and SC3 7500 5 387 186 155 200 176 105 82 6 SC3 11000 5 392 186...

Страница 6: ...Voltage point at 50 Hz Frequency Voltage point at 87 Hz If you choose to set the systems max frequency to 75 Hz instead of 50 Is it possible to equalize the smaller motor torque with a larger gearing...

Страница 7: ...person could stop the system and give first aid The motor terminal might contain high voltage even when motor not running The inverter might start unwanted after power up depends on the parameter set...

Страница 8: ...tor direction First try the direction of the motor with TIP in small movements The inverters control inputs are disconnected so it enters the OFF mode Now activate the STEP STORE button in 2 sec and w...

Страница 9: ...ously and connect the mains power supply Keep the button pressed until a green c appears 2 The green display shows a c for Choice of program and red display shows a program number corresponding to ope...

Страница 10: ...C TIP Frequency 0 0 400 Hz 10 0 Hz Frequency used for TIP mode and reference run D Switch frequency 2 0 8 0 kHz 2 5 kHz See section 2 7 for more information E Automatic restart Auto Reset 0 4 0 0 No...

Страница 11: ...not be set too high this might cause that the current limit of the inverter is exceeded At 1 5 times over current does the display flash At 2 times it TRIPS with the error OC3 In both cases you need...

Страница 12: ...play shows Hb while DC braking Par 8 DC braking time This is the duration for the time where the DC braking is active The motor might need ventilation if the DC braking is used often or have a long br...

Страница 13: ...ry to reduce the max output current according to the following table because of the heat dissipation in the inverter Switch Frequency Max output current 2 0 4 0 kHz 100 5 kHz 90 6 kHz 80 7 kHz 70 Note...

Страница 14: ...ple value 12 406 Shows only the last 3 digit 406 33 Position readout Sample value 12 406 Shows only thousands 012 40 Slip Hz Par L and P must be set correct 45 Motor optimal slip in Hz 50 Actual motor...

Страница 15: ...hile decelerating 17 Inverted function of 16 18 Activated in FORWARD mode 19 Inverted function of 18 20 Activated in REVERSE mode 21 Inverted function of 20 22 Activated in position mode Note Activate...

Страница 16: ...0 20mA terminal 3 and 4 03 Current input 4 20mA terminal 3 and 4 04 No function reserved 05 0 20mA 0 10VDC 0 10V has priority over 0 20mA 06 4 20mA 0 10VDC 0 10V has priority over 4 20mA 07 Ramp gene...

Страница 17: ...ing with the set up acceleration until et reaches the max frequency The inverter calculates when to begin to decelerate to hit the right position When the wanted position is reached 3 positions is the...

Страница 18: ...OC2 Over current 1 6 times normal current more than 30 sec Inverter is overloaded Try a larger inverter If using a SC3 set the V F curve to 87 Hz OC3 Over current Fault while accelerating lower Par 3...

Страница 19: ...dent motor protection switch use motor protection relay If the motor wires are switched off at e g emergency stop must the terminal 8 OFF input also be switched off to avoid overload when restarted Ne...

Страница 20: ...NO Motor potentiometer Motor potentiometer 10 V DC as Term 1 DC Stop or NPN out On Off STOP and PTC Reverse Forward 0 V 0 4 20mA Speed 0 10 VDC Speed 10 V DC as Term 10 0 V Relay max load 1 A 230 VAC...

Страница 21: ...OFF Term 8 2 DC STOP Term 9 Note Can be used as input at Par J 101 3 STOP Term 7 Can be connected to a PTC thermostat in the motor To protect against motor overheat 4 Forward Term 5 5 Reveres Term 6...

Страница 22: ...mander is higher a shielded cable must be used The shielded control cable must be connected only to the frequency inverter The shield on the motor cable has to be connected both to the inverter and th...

Страница 23: ...8 9 4 5 6 7 1 10 9 4 d2 d1 3 4 OFF STOP 7 6 8 9 10 11 12 FWD REVand stop With 1 stage switch PLC with PNP output 10 24 VDC Motor potentiometer Ramp generator A B Function 1 1 Forwards 0 1 Reverse 0 0...

Страница 24: ...to changes reserved 2 14 Connection of brake motor and resistor Important Brake resistor is heated while system is running Ensures free space to other components and mount touch protection 3xAC M L3...

Страница 25: ...3 Acceleration Hz sec 5 0 4 Deceleration Hz sec 5 0 5 V F curve Hz 50 0 6 boost 5 0 7 DC current 0 8 DC time sec 0 1 9 Start frequency Hz 0 5 A Stop frequency Hz 0 3 B Current limit 150 C TIP frequenc...

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