PM330 Power Modules

Заказные данные
(16)

PM330 Power Module, degree of protection IP20, frame size GX

PM330 Power Modules have been specially developed for simple applications, such as driving pumps, fans and compressors with speed-controlled increasing load characteristics.

PM330 Power Modules meet the very high energy efficiency requirements particularly well, especially in this area of application, because they offer the best possible energy utilization in all operating ranges. This is achieved by the very high efficiency verified according to EN 50598, various energy-saving functions, and the automatic pulse frequency adjustment.

To reduce emissions, the PM330 Power Modules are equipped with a radio interference suppression filter as standard (in accordance with the limit values defined in Category C3). Through the use of an external line filter, the PM330 Power Modules also comply with the limits for use in the first environment (Category C2) as specified in EN 61800‑3‑1.

If required, various high-performance dv/dt filters or a Braking Module can be connected. A corresponding DC link connection is available as standard.

All available system components are coordinated exactly with the PM330 Power Modules. This enables the implementation of reliable, safe, customized control cabinet solutions. All connections can easily be accessed from the front. The internal modules are very easily accessible.

Exceptional requirements concerning motor cable lengths can be easily implemented via output reactors. Series connections are permissible here.

The PM330 Power Modules are designed for connection to grounded TN/TT systems and non-grounded IT systems.

The CU230P‑2 Control Unit intended for PM330 Power Modules does not have special Safety Integrated functions. Safety functions can be implemented by means of external switching devices.

¹⁾ To comply with Category C2, shielded cables must also be used between the inverter and motor with a maximum permissible cable length of 100 m. Longer cables can be used if output reactors and output filters are connected (see section Load-side power components).

Характеристика

Derating data

The PM330 Power Modules and the associated system components are rated for an ambient temperature of 40 °C and installation altitudes of up to 1000 m above sea level. At ambient temperatures of > 40 °C, the output current must be reduced. Ambient temperatures above 50 °C are not permissible.

At installation altitudes > 1000 m above sea level, it must be taken into account that the air pressure, and therefore air density, decreases as the height increases. As a consequence, the cooling efficiency and the insulation capacity of the air also decrease. Due to the reduced cooling efficiency, it is necessary, on the one hand, to reduce the ambient temperature, and on the other hand, to lower heat loss in the built-in unit by reducing the output current.

As additional measure for installation altitudes from 2000 m up to 4000 m, an isolating transformer is required in order to reduce transient overvoltages according to EN 60664‑1.

Automatic adjustment of pulse frequency

In the factory setting, the drive starts with a pulse frequency of 4 kHz and reduces the pulse frequency automatically to the associated required frequencies when loaded. When the load decreases, the pulse frequency is increased automatically up to 4 kHz. The values of the rated current apply to a pulse frequency of 2 kHz and an ambient temperature of 40 °C and are reached at any time by the automatic adaptation of the output pulse frequency.

Current derating as a function of installation altitude

Permissible output current as a function of the installation altitude for PM330 Power Modules, frame size GX

Permissible output current as a function of the installation altitude for PM330 Power Modules, frame sizes HX and JX

Note:

The connected motors and power elements must be considered separately.

Current derating as a function of ambient temperature

Reliable output current depending on the ambient temperature for low overload (LO) and high overload (HO)

Note:

The operating temperature ranges of the Control Units must be taken into account (see technical specifications of Control Units).

Current derating as a function of the line voltage

PM330 Power Modules supply a constant power over the full permissible range of line voltage.

The constant power results in current derating as a function of the line voltage.

PM330 Power Module	Rated output current I_rated At 380 V/400 V	380 V	400 V	415 V	460 V	480 V
	A	%	%	%	%	%
6SL3310-1PE33-0AA0	300	100	100	96.6	86.2	81.6
6SL3310-1PE33-7AA0	370	100	100	96.9	87.8	83.7
6SL3310-1PE34-6AA0	460	100	100	96.4	85.4	80.6
6SL3310-1PE35-8AA0	585	100	100	96.9	87.8	83.7
6SL3310-1PE36-6AA0	655	100	100	96.4	85.4	80.6
6SL3310-1PE37-4AA0	735	100	100	96.6	86.6	82.1
6SL3310-1PE38-4AA0	870	100	100	96.4	85.4	80.6
6SL3310-1PE38-8AA0	910	100	100	96.4	85.8	81.2
6SL3310-1PE41-0AA0	1021	100	100	96.8	87.3	83

PM330 Power Module	Rated output current I_rated At 500 V/690 V	500 V	575 V	600 V	660 V	690 V
	A	%	%	%	%	%
6SL3310-1PG35-8AA0	581/535	100	96.9	95.4	93.3	92.1
6SL3310-1PG36-5AA0	654/595	100	96.5	95.3	92.4	91.0
6SL3310-1PG37-2AA0	725/665	100	96.7	95.6	93.0	91.7

Operating ranges

An additional dimensioning aid is available for all inverters with a PM330 Power Module. The purpose of this aid is to ensure the constant reliable operation of the inverter, in particular with regard to service life expectancy.

The dimensioning aid clearly distinguishes between continuous operating ranges and short-time operating ranges. As a result, due consideration can be given to operating ranges when the plant is configured. For further details, please refer to the diagram below and the explanatory text.

Continuous operation (green area) permissible.

Short-time operation (yellow area) permissible for 2 % of the total operating period without significant reduction in the inverter service life; no overload reaction triggered by the thermal monitoring model.

Sporadic short-time operation (red area) permissible for only very short, rare operating states lasting less than 0.1 % of the total operating period without significant reduction in the inverter service life; no overload reaction triggered by the thermal monitoring model on condition of compliance with the duty times specified in the diagram.

Overload capability

PM330 Power Modules have an overload reserve e.g. to handle breakaway torques. If larger surge loads occur, this must be taken into account when configuring. In drives with overload requirements, the appropriate base-load current must, therefore, be used as a basis for the required load.

The unit can operate in two different duty cycles in the permissible continuous operating range shown in the diagram (green area). Depending on how the system is dimensioned, the relevant base-load current is effective as a rated quantity.

The criterion for overload is that the drive is operated with its base-load current before and after the overload occurs on the basis of a duty cycle duration of 300 s.

The base-load current for a low overload I_L is the basis for a duty cycle of 110 % for 60 s or 135 % for 3 s.

The base-load current I_H for a high overload is based on a duty cycle of 150 % for 60 s.

Overload capability, low overload

Overload capability, high overload

Интеграция

The PM330 Power Modules have the following connections and interfaces:

PM‑IF interface to connect the PM330 Power Module to the Control Unit. The PM330 Power Module also supplies power to the Control Unit using an integrated power supply.
Motor connection and line supply connection via screw studs
DC-link connection for Braking Module and dv/dt filter
PE (protective earth) connections
Terminal block X9
- Input for external 24 V DC supply
- Input for external alarm/fault
- Input for EMERGENCY OFF / EMERGENCY STOP
- Control of the main contactor
- "DC link charged" enable signal

PM330 Power Modules communicate with the Control Unit via the PM-IF interface.

Connection diagram for PM330 Power Module

Power components that are available depending on the Power Module used

The following line-side power components, DC link components and load-side power components can be ordered additionally in the appropriate frames size for the Power Modules:

PM330 Power Module	Frame sizes GX to JX
Line-side power components
Line filter	✓
Line reactor	✓
DC link components
Braking Module with braking resistor	✓ ¹⁾
Load-side power components
Output reactor	✓
dv/dt filter plus VPL	✓
dv/dt filter compact plus VPL	✓

¹⁾ Available for PM330 Power Modules with line voltage from 380 V to 480 V

Чертеж

Principle dimension drawing and drill pattern for PM330 Power Modules, frame size GX

Secured with M8 bolts

Ventilation clearance required at top and bottom: 200 mm (7.87 in)

Ventilation clearance required at sides: 30 mm (1.18 in)

Ventilation clearance required at front: 30 mm (1.18 in)

The PM330 Power Modules are designed for installation in a control cabinet.

All dimensions in mm (values in brackets are in inches).

Principle dimension drawing and drill pattern for PM330 Power Modules, frame size HX

Secured with M8 bolts

Ventilation clearance required at the top: 200 mm (7.87 in)

Ventilation clearance required at the bottom: 250 mm (9.84 in)

Ventilation clearance required at sides: 30 mm (1.18 in)

Ventilation clearance required at front: 100 mm (3.94 in)

The PM330 Power Modules are designed for installation in a control cabinet.

All dimensions in mm (values in brackets are in inches).

Principle dimension drawing and drill pattern for PM330 Power Modules, frame size JX (available soon)

Secured with M8 bolts

Ventilation clearance required at the top: 200 mm (7.87 in)

Ventilation clearance required at the bottom: 250 mm (9.84 in)

Ventilation clearance required at sides: 30 mm (1.18 in)

Ventilation clearance required at front: 100 mm (3.94 in)

PM330 Power Modules are designed for installation in a control cabinet.

All dimensions in mm (values in brackets are in inches).

Технические данные

General technical specifications

	PM330 Power Modules
Input data
Line voltages and power ranges	380 ... 480 V 3 AC ±10 %, 160 ... 560 kW (215 ... 751 hp) 500 ... 690 V 3 AC ±10 %, 500 ... 630 kW (671 ... 845 hp)
Starting current	< rated input current (refer to power-dependent data)
Input frequency	47 ... 63 Hz
Grid requirement Short-circuit power R_SC	>33 line reactors required
Output data
Output voltage	0 V 3 AC … ≤ (line voltage × 0.97)
Output current	(refer to power-dependent data)
Output frequency	0 ... 100 Hz
Pulse frequency	Self-adjusting up to 4 kHz
Power factor λ	0.75 ... 0.93
Offset factor cos φ	0.96
Further technical specifications
Overvoltage category to IEC 61800‑5‑1	Overvoltage category III: Supply circuits Overvoltage category II: Non-supply circuits
Braking methods	DC braking Dynamic braking with external Braking Module with braking resistor
Type of cooling	Forced air cooling AF to EN 60146
Protection functions	Undervoltage Overvoltage Overcurrent/overload Overtemperature Ground fault Short-circuit Stall protection Motor blocking protection Motor overtemperature Inverter overtemperature/fan failure Parameter locking Detection of single-phase motor cable break Line phase failure
Standards
Compliance with standards	cULus, CE, RCM, EAC, KC, SEMI F47¹⁾
CE marking	According to EMC Directive 2014/30/EU, Low Voltage Directive 2014/35/EU
RI suppression	According to EMC product standard for variable-speed drives EN 61800‑3, "second environment". Can be operated in the "first environment" if line filters are installed.

¹⁾ SEMI F47 for frame size JX available soon

PM330 Power Modules

Line voltage 380 ... 480 V 3 AC		PM330 Power Modules
		6SL3310-1PE33-0AA0	6SL3310-1PE33-7AA0	6SL3310-1PE34-6AA0	6SL3310-1PE35-8AA0	6SL3310-1PE36-6AA0	6SL3310-1PE37-4AA0
Rated power ¹⁾
Based on the base-load current I_L
At 400 V/50 Hz	kW	160	200	250	315	355	400
At 460 V/60 Hz	hp	200	250	300	400	450	500
Based on the base-load current I_H
At 400 V/50 Hz	kW	132	160	200	250	250	315
At 460 V/60 Hz	hp	150	200	200	300	300	350
Output current at 50 Hz 3 AC
Rated current I_rated (400 V ±10 %)	A	300	370	460	585	655	735
Rated current I_rated (480 V ±10 %)	A	245	308	369	487	526	602
Base-load current I_L (400 V ±10 %) ²⁾	A	290	360	450	570	640	720
Base-load current I_L (480 V ±10 %) ²⁾	A	240	302	361	477	515	590
Base-load current I_H (400 V ±10 %) ³⁾	A	240	296	368	468	491	551
Base-load current I_H (480 V ±10 %) ³⁾	A	196	247	295	390	394	452
Max. output current I_max	A	392	486	608	770	864	972
Rated pulse frequency	kHz	2	2	2	2	2	2
Input current ⁴⁾
Rated current I_rated (400 V ±10 %)	A	317	375	469	597	668	750
Rated current I_rated (480 V ±10 %)	A	262	314	376	497	536	614
Base-load current I_L (400 V ±10 %) ²⁾	A	307	365	459	585	654	735
Base-load current I_L (480 V ±10 %) ²⁾	A	257	308	368	486	525	602
Base-load current I_H (400 V ±10 %) ³⁾	A	254	300	375	477	501	562
Base-load current I_H (480 V ±10 %) ³⁾	A	210	251	301	397	402	461
Max. input current	A	415	493	620	785	881	992
Short-circuit current rating according to IEC in conjunction with the specified fuses	kA	100	100	100	100	100	100
Rated short-circuit current SCCR (Short Circuit Current Rating) in accordance with UL508C (up to 600 V) in conjunction with the specified fuses	kA	100	100	100	100	100	100
Minimum short-circuit current ⁵⁾
For 3NE1 fuses	A	4400	5200	7000	10000	11000	13000
For 3NA3 fuses	A	9500	14000	20000	20000	30000	30000
Efficiency η At rated current I_rated (400 V/40 °C (104 °F))		0.98	0.98	0.981	0.981	0.98	0.981
Power loss At rated current I_rated (400 V/40 °C (104 °F))	kW	3.642	4.414	5.125	6.791	7.687	8.385
Coolant requirements	m³/s (ft³/s)	0.21 (7.42)	0.21 (7.42)	0.21 (7.42)	0.36 (12.7)	0.36 (12.7)	0.36 (12.7)
Coolant		Air	Air	Air	Air	Air	Air
Sound pressure level L_pA (1 m (3.28 ft))	dB	74	74	74	74	74	74
Power requirement 24 V DC supply	A	0.5	0.5	0.5	0.5	0.5	0.5
Line supply connection U1/L1, V1/L2, W1/L3		M12 screw	M12 screw	M12 screw	M12 screw	M12 screw	M12 screw
Conductor cross section, max. (IEC)	mm²	2 × 240	2 × 240	2 × 240	4 × 240	4 × 240	4 × 240
Motor connection U2, V2, W2		M12 screw	M12 screw	M12 screw	M12 screw	M12 screw	M12 screw
Conductor cross section, max. (IEC)	mm²	2 × 240	2 × 240	2 × 240	4 × 240	4 × 240	4 × 240
DC link connection DCP, DCN		M12 screw	M12 screw	M12 screw	M12 screw	M12 screw	M12 screw
Conductor cross section, max. (IEC)	mm²	2 × 240	2 × 240	2 × 240	4 × 240	4 × 240	4 × 240
PE/GND connection		M12 screw	M12 screw	M12 screw	M12 screw	M12 screw	M12 screw
Conductor cross section, max. (IEC)	mm²	3 × 240	3 × 240	3 × 240	6 × 240	6 × 240	6 × 240
Cable length, max. between Power Module and motor
When compliant with Categories C2 and C3 according to EN 61800‑3 shielded	m (ft)	100 (328)	100 (328)	100 (328)	100 (328)	100 (328)	100 (328)
When non-compliant with the limit values for RI suppression and without output reactor or dv/dt filter unshielded	m (ft)	200 (656)	200 (656)	200 (656)	200 (656)	200 (656)	200 (656)
When non-compliant with the limit values for RI suppression with output reactor or dv/dt filter shielded/unshielded	m (ft)	300/450 (984/1476)	300/450 (984/1476)	300/450 (984/1476)	300/450 (984/1476)	300/450 (984/1476)	300/450 (984/1476)
Degree of protection		IP20	IP20	IP20	IP20	IP20	IP20
Dimensions
Width	mm (in)	452 (17.8)	452 (17.8)	452 (17.8)	548 (21.6)	548 (21.6)	548 (21.6)
Height	mm (in)	1447 (57.0)	1447 (57.0)	1447 (57.0)	1696 (66.8)	1696 (66.8)	1696 (66.8)
Depth	mm (in)	327.5 (12.9)	327.5 (12.9)	327.5 (12.9)	393 (15.5)	393 (15.5)	393 (15.5)
Frame size		GX	GX	GX	HX	HX	HX
Weight, approx.	kg (lb)	101 (223)	102 (225)	107 (236)	155 (342)	155 (342)	157 (346)
Minimum size of control cabinet for installation of a Power Module
Width	mm (in)	No specifications	No specifications	No specifications	800 (31.5)	800 (31.5)	800 (31.5)
Height	mm (in)	No specifications	No specifications	No specifications	2000 (78.7)	2000 (78.7)	2000 (78.7)
Depth	mm (in)	No specifications	No specifications	No specifications	600 (23.6)	600 (23.6)	600 (23.6)

¹⁾ Rated power of a typical 4-pole standard induction motor based on the base-load current I_L or I_H at 400 V 3 AC/50 Hz (kW) or 460 V 3 AC/60 Hz (hp).

²⁾ The base-load current I_L is based on the duty cycle for low overload (LO).

³⁾ The base-load current I_H is based on the duty cycle for high overload (HO).

⁴⁾ The input current depends on the motor load and line impedance and applies for a line impedance corresponding to u_K = 1 %. The rated input currents apply for a load at rated power (based on I_rated) – these current values are specified on the rating plate.

⁵⁾ 10 ms value from current-time characteristic for reliable tripping of installed protection devices. If the minimum short circuit current is not reached, the tripping time of the fuses is increased, which can lead to damage.

Line voltage 380 ... 480 V 3 AC		PM330 Power Modules
		6SL3310-1PE38-4AA0	6SL3310-1PE38-8AA0	6SL3310-1PE41-0AA0
Rated power ¹⁾
Based on the base-load current I_L
At 400 V/50 Hz	kW	450	500	560
At 460 V/60 Hz	hp	500	600	700
Based on the base-load current I_H
At 400 V/50 Hz	kW	355	400	450
At 460 V/60 Hz	hp	450	500	500
Output current at 50 Hz 3 AC
Rated current I_rated (400 V ±10 %)	A	840	910	1021
Rated current I_rated (480 V ±10 %)	A	677	739	847
Base-load current I_L (400 V ±10 %) ²⁾	A	820	890	1000
Base-load current I_L (480 V ±10 %) ²⁾	A	663	724	830
Base-load current I_H (400 V ±10 %) ³⁾	A	672	728	786
Base-load current I_H (480 V ±10 %) ³⁾	A	542	591	652
Max. output current I_max	A	1107	1202	1350
Rated pulse frequency	kHz	2	2	2
Input current ⁴⁾
Rated current I_rated (400 V ±10 %)	A	870	945	1061
Rated current I_rated (480 V ±10 %)	A	702	767	880
Base-load current I_L (400 V ±10 %) ²⁾	A	850	924	1038
Base-load current I_L (480 V ±10 %) ²⁾	A	687	751	862
Base-load current I_H (400 V ±10 %) ³⁾	A	696	756	816
Base-load current I_H (480 V ±10 %) ³⁾	A	561	614	677
Max. input current	A	1147	1248	1402
Short-circuit current rating according to IEC in conjunction with the specified fuses	kA	100	100	100
Rated short-circuit current SCCR (Short Circuit Current Rating) in accordance with UL 61800‑5‑1 (up to 600 V) in conjunction with the specified fuses	kA	100	100	100
Minimum short-circuit current ⁵⁾
For 3NE1 fuses	A	10400	14000	16000
For 3NA3 fuses	A	40000	40000	52000
For 3NB3 fuses	A	8600	17000	18000
Efficiency η At rated current I_rated (400 V/40 °C (104 °F))		0.98	0.98	0.98
Power loss At rated current I_rated (400 V/40 °C (104 °F))	kW	9.576	9.95	11.405
Coolant requirements	m³/s (ft³/s)	0.45 (15.9)	0.45 (15.9)	0.45 (15.9)
Coolant		Air	Air	Air
Sound pressure level L_pA (1 m (3.28 ft))	dB	74	74	74
Power requirement 24 V DC supply	A	0.5	0.5	0.5
Line supply connection U1/L1, V1/L2, W1/L3		M12 screw	M12 screw	M12 screw
Conductor cross section, max. (IEC)	mm²	6 × 240	6 × 240	6 × 240
Motor connection U2, V2, W2		M12 screw	M12 screw	M12 screw
Conductor cross section, max. (IEC)	mm²	4 × 240	8 × 240	8 × 240
DC link connection DCP, DCN		M12 screw	M12 screw	M12 screw
Conductor cross section, max. (IEC)	mm²	4 × 240	4 × 240	4 × 240
PE/GND connection		M12 screw	M12 screw	M12 screw
Conductor cross section, max. (IEC)	mm²	6 × 240	6 × 240	6 × 240
Cable length, max. between Power Module and motor
When compliant with Categories C2 and C3 according to EN 61800‑3 shielded	m (ft)	100 (328)	100 (328)	100 (328)
When non-compliant with the limit values for RI suppression and without output reactor or dv/dt filter unshielded	m (ft)	200 (656)	200 (656)	200 (656)
When non-compliant with the limit values for RI suppression with output reactor or dv/dt filter shielded/unshielded	m (ft)	300/450 (984/1476)	300/450 (984/1476)	300/450 (984/1476)
Degree of protection		IP20	IP20	IP20
Dimensions
Width	mm (in)	801 (31.5)	801 (31.5)	801 (31.5)
Height	mm (in)	1621 (63.8)	1621 (63.8)	1621 (63.8)
Depth	mm (in)	393 (15.5)	393 (15.5)	393 (15.5)
Frame size		JX	JX	JX
Weight, approx.	kg (lb)	235 (518)	250 (551)	250 (551)
Minimum size of control cabinet for installation of a Power Module
Width	mm (in)	No specifications	No specifications	No specifications
Height	mm (in)	No specifications	No specifications	No specifications
Depth	mm (in)	No specifications	No specifications	No specifications

¹⁾ Rated power of a typical 4-pole standard induction motor based on the base-load current I_L or I_H at 400 V 3 AC/50 Hz (kW) or 460 V 3 AC/60 Hz (hp).

²⁾ The base-load current I_L is based on the duty cycle for low overload (LO).

³⁾ The base-load current I_H is based on the duty cycle for high overload (HO).

Line voltage 500 ... 690 V 3 AC		PM330 Power Modules
		6SL3310-1PG35-8AA0	6SL3310-1PG36-5AA0	6SL3310-1PG37-2AA0
Rated power ¹⁾
Based on the base-load current I_L
At 690 V/50 Hz	kW	500	560	630
At 575 V/60 Hz	hp	500	600	700
Based on the base-load current I_H
At 690 V/50 Hz	kW	450	500	560
At 575 V/60 Hz	hp	450	500	500
Output current at 50 Hz 3 AC
Rated current I_rated (500 V ±10 %)	A	581	654	725
Rated current I_rated (600 V ±10 %)	A	557	623	693
Rated current I_rated (690 V ±10 %)	A	535	595	665
Base-load current I_L (500 V ±10 %) ²⁾	A	569	640	710
Base-load current I_L (690 V ±10 %) ²⁾	A	520	580	650
Base-load current I_H (500 V ±10 %) ³⁾	A	482	523	580
Base-load current I_H (690 V ±10 %) ³⁾	A	444	476	532
Max. output current I_max	A	768	864	959
Rated pulse frequency	kHz	2	2	2
Input current ⁴⁾
Rated current I_rated (500 V ±10 %)	A	596	679	753
Rated current I_rated (600 V ±10 %)	A	578	647	720
Rated current I_rated (690 V ±10 %)	A	555	618	690
Base-load current I_L (500 V ±10 %) ²⁾	A	591	665	737
Base-load current I_L (690 V ±10 %) ²⁾	A	540	602	675
Base-load current I_H (500 V ±10 %) ³⁾	A	501	543	602
Base-load current I_H (690 V ±10 %) ³⁾	A	461	494	552
Max. input current	A	798	897	995
Short-circuit current rating according to IEC in conjunction with the specified fuses	kA	100	100	100
Rated short-circuit current SCCR (Short Circuit Current Rating) in accordance with UL 61800‑5‑1 (up to 600 V) in conjunction with the specified fuses	kA	100	100	100
Minimum short-circuit current ⁵⁾
For 3NE1 fuses	A	10000	11000	13000
Efficiency η At rated current I_rated (690 V/40 °C)		0.983	0.983	0.983
Power loss At rated current I_rated (690 V/40 °C)	kW	8.134	8.828	9.937
Coolant requirements	m³/s (ft³/s)	0.45 (15.9)	0.45 (15.9)	0.45 (15.9)
Coolant		Air	Air	Air
Sound pressure level L_pA (1 m (3.28 ft))	dB	74	74	74
Power requirement 24 V DC supply	A	0.5	0.5	0.5
Line supply connection U1/L1, V1/L2, W1/L3		M12 screw	M12 screw	M12 screw
Conductor cross section, max. (IEC)	mm²	6 × 240	6 × 240	6 × 240
Motor connection U2, V2, W2		M12 screw	M12 screw	M12 screw
Conductor cross section, max. (IEC)	mm²	4 × 240	4 × 240	4 × 240
DC link connection DCP, DCN		M12 screw	M12 screw	M12 screw
Conductor cross section, max. (IEC)	mm²	4 × 240	4 × 240	4 × 240
PE/GND connection		M12 screw	M12 screw	M12 screw
Conductor cross section, max. (IEC)	mm²	6 × 240	6 × 240	6 × 240
Cable length, max. between Power Module and motor
When compliant with Categories C2 and C3 according to EN 61800‑3 shielded	m (ft)	100 (328)	100 (328)	100 (328)
When non-compliant with the limit values for RI suppression and without output reactor or dv/dt filter unshielded	m (ft)	200 (656)	200 (656)	200 (656)
When non-compliant with the limit values for RI suppression with output reactor or dv/dt filter shielded/unshielded	m (ft)	300/450 (984/1476)	300/450 (984/1476)	300/450 (984/1476)
Degree of protection		IP20	IP20	IP20
Dimensions
Width	mm (in)	801 (31.5)	801 (31.5)	801 (31.5)
Height	mm (in)	1621 (63.8)	1621 (63.8)	1621 (63.8)
Depth	mm (in)	393 (15.5)	393 (15.5)	393 (15.5)
Frame size		JX	JX	JX
Weight, approx.	kg (lb)	234 (516)	234 (516)	244 (538)
Minimum size of control cabinet for installation of a Power Module
Width	mm (in)	No specifications	No specifications	No specifications
Height	mm (in)	No specifications	No specifications	No specifications
Depth	mm (in)	No specifications	No specifications	No specifications

¹⁾ Rated power of a typical 4-pole standard induction motor based on the base-load current I_L or I_H at 690 V 3 AC/50 Hz (kW) or 575 V 3 AC/60 Hz (hp).

²⁾ The base-load current I_L is based on the duty cycle for low overload (LO).

³⁾ The base-load current I_H is based on the duty cycle for high overload (HO).

PM330 Power Modules

Информационные материалы

Характеристика

Derating data

Operating ranges

Overload capability

Интеграция

Power components that are available depending on the Power Module used

Чертеж

Технические данные

General technical specifications

PM330 Power Modules