CRAMACO G2R 160/200/250/280/315/400 synchronous machine Instruction manual
The CRAMACO G2R 160/200/250/280/315/400 synchronous machines are designed to provide reliable power generation for a range of applications. These generators are built with a robust construction, including a welded iron frame, a laminated stator core, and a damper cage for stable operation. The generators also feature a three-phase brushless exciter and a static voltage regulator, which ensures constant voltage output under varying load conditions. The G2R series synchronous machines are ideal for use in power generation systems that require a reliable, efficient, and stable power source.
Advertisement
Advertisement
REV 4
INSTRUCTION MANUAL FOR USE AND MAINTENANCE
SYNCHRONIC MACHINES SERIES G2R 160/200/250/280/315/400
FOUR POLES BRUSHLESS
1. GENERAL
These instructions have by objective to serve the personal in charged of installing, connecting and maintaining the generator. Besides this manual gives you instructions about spare parts in case that needs a reparation work.
These generators are according with the norms CEI IEC 60034, VDE 0530, NF C51-100-111 and 112, BS
4999-5000 complementing other specifications that were not thought when were produced
2. INTRODUCTION TO THE STUDY OF THE SYNCHRONOUS
“G2R” MACHINE
2.1. CONSTRUCTION
The generator can be divided in a lot of components that provide different functions, that are going to be describe in the following paragraphs
2.1.1. PRINCIPAL MACHINE
2.1.1.a) Stator
The frame with the stator was made in a welded iron structure. The magnetic core with the winding are host in the frame. The wires of the winding are inserted one by one in a almost close slot shape. The isolations of the winding are class H. The winding are firmly fixed and connected to the terminals without intermediate conductors, avoiding a joint and the possibility of wrong contacts.
2.1.1.b) Rotor
The polar rotor has the excitation’s winding. The polar core is made by thin laminations. The damper cage allows good running, in case of unbalanced charges and parallel operation. The coils edges are supported by axial bars and in the middle, between the poles, seized with special gags, designed to oppose the centrifugal forces.
2.1.2. EXCITER
2.1.2.a) STATOR
It’s a three-phase A.C. rotating armature generator type. It’s attached to the shield on the exciter side of the machine. The laminated stator makes the poles that holds the winding exciter field.
2.1.2.b) ROTOR
The armature of this exciter was put in the axis of the machine, manufactured with thin laminations of metal sheet. The winding of enamelled wire is a three-phase with a not accessible neutral and feed a rectifier composed by six diodes connected in star bridge.
The diodes are grouped every 3, in 2 shooting plaques, one positive and other negative, electrically isolated between them and to ground. Every plaque is connected to the polar rotor excitation winding terminals, and parallel between them, is installed an over voltage protectors 20K type.
2.1.3. AUXILIARY WINDING OF EXCITATION (G2R 160 NON AVAILABLE)
Situated on the same slots that the principal stator winding, it has an auxiliary winding which generate a voltage needed to feed the regulator of voltage in normal running or short-circuit. Isolation specially designed isolate from the principal winding and ground.
2.1.4 TYPES OF PROTECTION
The normal execution is IP20S/IP23S (DIN 40050)
2.1.5 CONSTRUCTIVE FORM
The three-phase brush less G2R generator type is conformed by the principal machine, in which includes the auxiliary winding, an A.C. three phase exciter with rotating rectifier and a static voltage regulator.
2.1.6 TERMINAL BOX
Is situated on top of the alternator on the exciter side. The power wire entrance can be done by both sides, right or left. The terminal box has: the main terminal board and the regulator.
1
2.1.7 COUPLING SYSTEM
– BEARING
The G2R series has been developed in such way to get a coupling with 1 or 2 bearings, without the necessity of disassembly the machine. Just a simple change of shield allows the shift from B2 to B3/B14 configuration, except the G2R 400 Series that is only on request. Once in B2 option there are all the SAE
(flywheel and housing) possibilities that usually require a diesel motors market. Also, on request, specials couplings can be done.
The bearings used are prelubricated and sealed, so won’t be needed to put grease for lifetime. It is necessary to change the bearing at the 20000 hours of use.
2.1.8 VENTILATION
The generators are self ventilated. The fan is on the drive side. The air gets in through the grille over the exciter side and is pushed through it and the principal generator, to go out by the grille, on the coupling side. The fan is radial type so, it can rote to both sides.
2.2. PERFORMANCE
2.2.1. VOLTAGE AND TIME OF REGULATION
The static voltage regulation is ±0,5% in any conditions of power-factor between 0 (over excited) and 1, and not depend of the generator temperature.
2.2.2. OVERLOAD
The generators are designed to pass the overload norms, but under this conditions is not possible guarantee the regulation voltage. For starting motor is possible to have an overload of two times the nominal current, for no longer than 20 seconds.
Add the nominal values of power of a generator, letting the air refrigeration at less temperature than the established, is just accepted with a previous agreement with the manufacturer.
2.2.3. SHORT-CIRCUIT
If there is a short
– circuit in the principal terminals generator, it will have firstly the maximum current of shortcircuit. It’s peak value is independent on the excitation system. On the other hand, the permanent short-circuit current, depends on the excitation system. The excitation system used by generators makes that the permanent short -circuit current bigger than two times and a half of the nominal value. As maximum time of the short-circuit must take 3 seconds.
2.2.4. PARALLEL OPERATION
All our generators have a damper cage, so that, they can run in parallel with the net or with other generators.
The G2R 160, G2R 200 y G2R 250 series does not include parallel-device but it can be order by request, in this case, contact the manufacturer.
Faulty synchronisation must be avoided because they can damage the machine. There are protections for the rectifier against these faults but is impossible to have total security.
If it is necessary to use a common neutral to operate in parallel with another system, a reactance is needed, which could be left out if the voltages on the generator’s phases are free of harmonic, or same generator type are used. Also mind the following considerations:
2.2.4.a)PARALLEL OPERATION WITH THE MAINS
This kind of operation, in order to have a tension drop depending of the reactive load, one stabilizer transformer is incorporated to the W phase before the outgoing terminal. It has a relation ... /1A and is connected according to the respective drawings. For 3 x 380 machines with double star connection two transformers are added, according to the respective drawing.
At the moment of parallel running, the correct distribution of the active current depends just on the engine control activation, on the o ther hand, reactive charge distribution it’s a function of the generator’s excitation conditions.
This could be modify by variations on the reference voltage adjuster, which the customer can connect, according to respective drawings (see Table N°2). Obviously, when a reactive drop of tension is used, the voltage regulation precision is not valid.
IMPORTANT
In all cases of parallel operation, the following procedures are recommended:
A) Check the existence and the good running of the protection of inverse power.
B) Let the reactive drop resistance on.
2
REV 4
C) Previous to the first step of the paralleling, equalise the value of voltage of the generator with the bars using the incorporated potentiometer of the regulator, identified as “VOLTS” (clockwise to increase).
D) Once in load, if the value of power is lesser than the nominal, it should be corrected by changing the reactive drop resistance.
E) In these conditions the generator should assume consecutive parallel runs, without charge any element of control, except for abnormal variations on the bars in which is connected.
2.2.4.b) AUTOMATIC PARALLELING SYSTEM.
In this type of operation, the reactive load shearing is done automatically by an electronic controller. These kinds of devices are only compatible with AVRs with ± 9 V analogue inputs and are shipped only on request.
2.2.5. ELIMINATION OF RADIAL INTERFERENCE
The generators carry out a “G” degree as is established in the standards. Logically, generators can be supply, as a request, with higher degrees. ”N” or “K”. The connections of this filter mechanism are available on the pane provided with the machine. When the resistance of isolation is measure, it will be request to turn off this capacitor.
2.2.6. REFERENCE VOLTAGE ADJUSTMENT
The generators are provided with the connection of an external potentiometer as a reference voltage adjustment that lets change the voltage between +/-5%.
For connection details and potentiometers values, see Table N° 1.
This adjustment can be put on the same terminal box control panel. This equipment is supplied only by request, for generators that runs in parallel is recommend to block it after the first use (see paragraph
2.2.4.), having access only authorised personal.
2.2.7. EXCITATION
The generators are self excited by remnant magnetism; the residual voltage is a lot higher in generator without exciter. This residual value can change importantly, depending basically in the previous excitation and the quality of the ferromagnetic lamination. So that, if any chore has to be executed in a brushless generator is absolutely indispensable to stop the machine, before doing any work. The field disconnection is not enough.
2.3. AUTOMATIC VOLTAGE REGULATOR (AVR)
The A.V.R. should:
Maintain constantly independent from the charge, the voltage on the terminals of the generator for the isolated work and to produce the drop of tension needed for a correct parallel operation.
Make stable the tension against wavering caused by the variations of charges of short period. The three-phase alternates the voltage of auxiliary winding is rectify and transmitted in a controlled way to the winding of the exciter.
The correspondence between G2R Series and AVRs are specified in Table N° 2.
In every case, the AVRs comply with the following characteristics:
2.3.1 VOLTAGES
The generators are able to work at different voltages and frequencies. The connection and voltages graphics are on drawings (Table N° 2).
The G2R 400 Series has “by request” voltages, and the valid drawings are only the ones provided with the machine, along with the test protocol.
VERY IMPORTANT
If you need to change voltage, you must follow the mentioned drawings, then, adjust it with the machine running, using the potentiometer incorporated to the regulator and identified as “VOLTS” to the wished value that must be in the range indicated on the plane.
2.3.2 FREQUENCIES
All regulators admit 50 or 60 HZ operation. The instructions to switch from a frequency to another are detailed on Table N°1. Also, they have an adjustable frequency compensation which improves load pickup performance by restraining voltage recovery until frequency has also started to recover. This compensation maintains constant u/f.
3
2.3.3 FUSE
A fuse is connected to the voltage supply wires. The type of fuse is shown in drawings and Table N° 1.
VERY IMPORTANT
In case of to change the fuse, do it with the machine off.
2.3.4 INTEGRATED VOLTAGE ADJUST.
An integrated potentiometer identified as “VOLTS” allows to adjust the voltage.
2.3.5 STABILITY ADJUST.
It is possible due to an integrated potentiometer. Anyway, it was calibrated in the test bench and only authorized personnel are allowed to change its settings.
3. PREVIOUS CHECKING OF THE ASSEMBLING
This section gives information about unpacking, inspection of the stuff, localisation, line up, electrical connections, ensemble and direction of rotating.
3.1. RECEPTION
3.1.1.
When you get the generator, check if it had a problem during the transportation. If it does, call immediately the shipping company and the manufacturer, so they will be able to claim to the insurance company.
3.1.2.
The lift should be put through the handles, never do it by the axis.
The discharge and position should be done carefully avoiding hits or impacts.
3.2. STORAGE
3.2.1.
Should be avoided the storage in open or wet places.
3.2.2.
To avoid marks in the bearing track chose a place free of vibrations or isolate of them. Also turn periodically the rotor.
3.3. FIXATION FOR TRANSPORTING
The machines built with just one bearing (B2) are s hipped with fixation’s items that joins the bridle with the coupling disc.
3.4. LOCATION
Establish the generator in a place with good air admission, clean and fresh. That place should be dry and the machine easy to get. Avoid the re-flux of air (the air that comes out shouldn’t get mix the fresh air for refrigeration)
3.5. CONNECTION
3.5.1.
Measure the generated voltage on the three
– phase, in the main terminal “U”, ”V” and ”W”. If it is a single
– phase machine, measure between “U” and “V”.
3.5.2.
Connect in the neutral conductor to the “N” terminal.
3.5.3.
Just the drawing provides with the generator are valid and compromise the manufacturer.
3.5.4.
Lubricate lightly with vaseline the connection terminals (generator
– electrical supply), and adjust strongly the screws and nuts to the terminal board.
3.5.5.
Put wires and conductors in such way to get the maximum distance between them and the box.
4
REV 4
3.5.6.
Connect the terminal ground.
3.6. COUPLING
3.6.1.
Use only coupling with surface contact well mechanised. The Joint must transmit just torso, any other component must be avoided.
3.6.2.
Make sure that when the generator is coupling to operating engine by hard or elastic coupling, both lines that goes through the geometric axis should be in a straight line.
3.7. TURNING DIRECTION
3.7.1.
The generator is able to operate in both turning directions.
3.7.2.
The application standards of the generator’s terminals are marked in alphabetical order. When the turning direction is clockwise; t he terminals “U”, ”V” and “W” go with the chronological sequence. This rule is valid for all the machines, separately of it capacity or voltage and even when the machine has been designed to rotate in the CONTERCLOCKWISE direction. If the turning direction is counterclockwise, the sequence is
“V”, “U” and “W”.
3.7.3.
The self excitation is independent from the rotation direction.
4. STARTING UP
4.1 PRELIMINARY CHECKS
4.1.1.
Before to put the generator on service, after the assembling for it rotatio n’s test, or after a long period of non use, out of service, the machine must be clean with conscience. Take out any residual material, from the shipping that could be stick on the machine.
4.1.2.
Make sure that the generator turns freely over the bearing.
4.1.3.
The generator should be fitted appropriately to the foundation.
4.1.4.
Eliminate all fixation elements used for the shipping
4.1.5.
Make sure that all the coupling parts are well positioned and, the maintenance instructions has been observed
4.1.6.
Verify and check that all electric connections have been done following the supplied diagrams. Check if the connection of the generator’s terminals is in the correct one
4.1.7.
If the Gen Set has an adjuster by remote control installed, check out for a correct installation
5
4.1.8.
Verify that terminals that connect to the main are correctly arranged and fixed to the terminal board, so will avoid flashes or short-circuits
4.1.9.
Check the generator ground.
4.1.10.
Verify the resistance of isolation of all the winding with a megohmmeter of 500 to 1000 volts. Minimum value is 1 M . This check has to be done after a long period without using the machine, before turn it on again.
4.2. STARTING UP
After all inspections have been done carefully, the generator is ready to be put on service for first time.
When it is rotating to get the nominal velocity, its field will be exciting. When the generator is on nominal velocity, it is ready to operate.
4.3. ADJUSTMENT OF VOLTAGE
In the testing room the manufacturer tested the generator, adjusting the voltage at the require value on the order.
4.4. GENERATOR THAT OPERATES ISOLATED.
The regulators that have possibility of
“independent” or “parallel” operation are shipped only by request, according to Table N° 1.
4.5 PARALLEL OPERATION
(see 2.2.4. paragraph)
5. VERIFICATION OF MAINTENANCE
5.1.
Is necessary periodically take out the dust, fuel oil, and dirt, that could be accumulated inside.
5.1.1.
All this chores must to be done with the machine off.
5.1.2.
If a dry cleaning is not enough, use cleaning instruments that do not affect the isolation. Is recommend to use solvents of electrical use, and let it dry out with the ambient temperature.
5.1.3.
The generators that cover the emergency services (stand by), must stay on charge for about 2 or 3 hours periodically without letting go more than 2 or 3 months (depending on the ambient moistness)
5.2.
The machines have seal, prelubricated, standard bearing that don’t require maintenance. It’s must be change after 20000 hours or in case of high temperatures or noises.
6. POSSIBLE FAULTS AND THEIR CORRECTION
6.1.
The voltage oscillates or is unstable
Fault
The engine’s velocity change
Verification and solution
Check the engine’s velocity regulator
6.2.
Voltage falls to zero when the generator is on nominal voltage
Fault
Over-excitation protection was
Working
Regulator is failing
Verification and solution
Turn off the machine, check the fusible. Turn on and see if it auto excite
Replace the regulator
6
6.3.
The generator doesn’t auto excite
REV 4
Fault
The residual magnetism is a lot below the normal
Verification and solution
Apply an external excitation (+,-) through a battery, from 5 to 12 volts and until the outlet voltage rise automatically.
NOTE: If is used the uprooting battery of the diesel, unplug the negative binding post
Adjust the velocity The velocity of the engine is not correct
The principal circuit of the excitation
is interrupted
The varistor is destroyed
Fault on the regulator
Check connections
Unplug the varistor and verify
Change the regulator and send it to the manufacture.
6.4.
The generator doesn’t reach the nominal voltage
Fault
The rectifiers are destroyed
The motor velocity is not correct
The regulator’s fusible is burnt
The regulator is failing
6.5.
Verification and solution
Verify the diodes and change them if is necessary
Adjust the velocity
Change fusible
Change regulator
Correct no load voltage, but low at load condition
Fault Verification and solution
The rotating rectifiers are destroyed
The velocity droop to much
Verify the diodes and change them if is necessary
Check the regulator of the engine’s velocity
7. SPARE PARTS G2R 160, 200, 280, 315 and 400 ALTERNATORS
Spare part
001
002
003
004
005.a
005.b
006
007
008.a
008.b
008.c
008.d
009
010
011
Description.-
Frame with stator.-
Main rotor.-
Exciter’s rotor.-
Exciter’s stator.-
Flange B2.-
Flange B3/B14.-
012 Coupling side bearing (B3/B14).-
013
014
Exciter side bearing.-
Power outlet terminals.-
014.1 3 connector terminals.-
014.2 6 connector terminals.-
014.3 Neutral terminal bridge.-
Exciter side shield.-
Fan.-
Air outlet protection (B2).-
014.4 Half phase terminal bridge.-
014.5 U V W connection terminal.-
015 Rotating rectifier.-
Air outlet protection (B3/B14).-
Air outlet protection IP23 (B2).-
016
017
Fuse holder.-
Fuse.-
Air outlet protection IP23 (B3/B14).- 018
Terminal box.- 019.a
Voltage regulator.-
Inside retention washer (B3/B14).-
Coupling (B2).-
Coupling disks (B2).-
Outside retention washer (B3/B14
019.b
G2R 400)
019.c Oiling washer (B3/B14 G2R 400)
020 Pass-cable stopper
See drawing: G2R 160 N 19751; G2R 200 N 19752; G2R 280 N 19753; G2R 315 N 19754; G2R 400
N° 19755.
IMPORTANT: each spare part order must include alternator model and serial number.
EXAMPLE: G2R 315 SA/4 Fan
– Serial Number Nº 31324/3248.
7
PLANTA INDUSTRIAL y ADMINISTRACION
Rivadavia 1701- (2440) SASTRE
Pcia. Santa Fe. - Argentina
T.E. 0054-3406-480074
FAX 0054-3406-480007 e.mail: [email protected] http://www.dbtsa.com.ar
PERIODO DE GARANTIA
El período de garantía para alternadores es de doce meses desde que la máquina está lista para ser despachada y el lugar de recepción o entrega es en nuestra planta.
DEFECTOS POSTERIORES A LA ENTREGA
Se repararán o reemplazarán alternadores dentro del período de garantía si fueron utilizados, instalados o almacenados en forma correcta, o bien debido a fallas de fabricación o traslado. Todas las identificaciones y números deberán estar intactas para hacer efectiva la garantía.
No nos hacemos responsables por el costo que se podría ocasionar en remoción o colocación de cualquier parte o alternador enviados a nosotros para inspección o debido a un reemplazo.
No nos hacemos responsables por defectos de nuestros productos que han sido reparados, alterados o ajustados por personal ajeno a la empresa.
No nos hacemos responsable por alternadores de segunda mano, o bien artículos no construidos, aunque suministrados por nosotros, estos últimos serán regidos por sus respectivas garantías si las tuviesen.
Todos los reclamos por alternadores deberán contener una detallada descripción del defecto, el número de serie, fecha de la compra, nombre y dirección del vendedor. En el caso de partes de repuesto, se deberá hacer referencia a la factura del mismo.
Nuestro juicio será definitorio en la resolución de cualquier reclamo, y el reclamante deberá aceptar nuestra decisión en lo concerniente a los defectos e intercambio del alternador o parte en cuestión.
Nuestra responsabilidad será absuelta por completo reparando o reemplazando como se describe anteriormente; y en caso de que la garantía no se hiciera efectiva, en ningún caso se excederá de la lista de precios actual para el reemplazo.
Nuestras cláusulas serán puestas en lugar de cualquier garantía o condición impuestas por terceros como especificaciones o locaciones particulares, no nos hacemos responsables por daños o pérdidas causadas debido a esta situación, así como de alternadores o partes dañadas debido a esto.
Para más informaciones contáctese con nuestro Departamento de Asistencia técnica
WARRANTY PERIOD
In respect of alternators the warranty period is twelve month from the date when the machine is ready for dispatch, the place of delivery is our plant.
DEFECTS AFTER DELIVERY
We will repair or replace alternators within the warranty period if the goods where used, installed or stored in a proper manner, or due to defective material, workmanship or transportation. All identification marks and numbers must be intact.
We shall not be liable for any expenses that may be incurred in removing or replacing any part sent to us for inspection or in fitting any replacement part supplied by us.
We shall not be liable for defects on products that have been repaired, adjusted or altered by any person except our authorized agents or ourselves.
We shall not be liable for any second-hand goods, proprietary articles or goods not of our own manufacture although supplied by us, such articles and goods being covered by the warranty (if any) given by the manufacturers.
All claims must contain full particulars of the alleged defect. The description of the goods, the serial number, the date of purchase, and the name and address of the vendor. For spare parts, claims must contain the order reference under which the goods were supplied.
Our judgment, in all cases of claims, shall be final and conclusive and the claimant shall accept our decision on all questions as to defects and the exchange of a part or parts.
Our liability shall be fully discharged by either repair or replacement as above, and in any event shall not be exceed the current list price of the defective goods.
Our liability under this clause shall be in lieu of any warranty or condition implied by law as to the quality or fitness for any particular purpose of the goods, and save as expressly provided in this clause we shall not be under any liability, whether in contract, tort or otherwise, in respect of defects in goods delivered or for any injury, damages or loss resulting from such defects or from any work undone in correction therewith.
For further information call our Technical Assistance Department.
MODEL
AVC 63 - 2,5
AVC 63 - 4A
AVC 63 - 7 1A
GRT7 TH4 R4 4A S/PAR
GRT7 TH4 R4 7A PAR1
GRT7 TH4 R4 7A E9 PAR1
Int.
Voltage
Adjust
Si
Si
Si
Si
Si
Si
TABLE N° 1
– MAIN CHARACTERISTICS OF THE AVRs
Ext. Voltage Adjust Frequency
Terminals
6 - 7
6 - 7
6 - 7
7 - 6
7 - 6
Pote. 50 Hz 60 Hz
5 k - 2 W Auto Auto
10 k - 2 W Join HZ1-HZ2 Open HZ1-HZ2
1,5 k - 2 W Join 50-COM
5 k - 3 W
Join JHz 1-2
5 k - 3 W
Join JHz 1-2
5 k - 3 W
Join JHz 1-2
Open 50-COM
Join JHz 2-3
Join JHz 2-3
Join JHz 2-3
U/F
Adjust
Fuse
Si 5 A - 250 V
Si 6,3 A - 250 V
Si
Si
5 A - 250 V
3 A - 250 V
Si
Si
5 A - 250 V
5 A - 250 V
MODEL
G2R 160
G2R 200
G2R 250
G2R 280
G2R 315
* Connections according to drawings provided with machine.
G2R 400
TABLE N°2 - CONNECTION DRAWINGS OF DIFFERENT AVR
AVR
AVC 63-2.5
GRT7 TH4 R4 4A - S/PAR
AVC 63-4 A
GRT7 TH4 R4 4A - S/PAR
AVC 63-7 1A
GRT7 TH4 R4 7A - PAR1
AVC 63-7 1A
GRT7 TH4 R4 7A - PAR1
AVC 63-7 1A
GRT7 TH4 R4 7A - PAR1
AVC 63-7 1A
GRT7 TH4 R4 7A - PAR1
RIGHT
CONNECTION
DRAWING
19486
20035/B
19492/A
20008/C
19498/B
19794/C
19498/B
19794/C
19498/B
19794/C
(*)
LEFT
CONNECTION
DRAWING
19487
20036/B
19493/A
20034/B
19499/B
20037/B
19499/B
20037/B
19499/B
20037/B
Stability
Adjust
Yes
Yes
Yes
Yes
Yes
Yes
Parallel
Capable
No
No
Yes
No
Yes
Yes
Automatic
Parallel
Capable
No
No
No
No
No
Yes
DRAWING INDEX
DESCRIPCIÓN
Spare Parts G2R 160
Spare Parts G2R 200
Spare Parts G2R 250
Spare Parts G2R 280
Spare Parts G2R 315
Spare Parts G2R 400
Connection Diag. (right) – G2R 200 – 160 – AVC 63 – 2,5
Connection Diag. (left) – G2R 200 – 160 – AVC 63 – 2,5
Connection Diag. (right) – G2R 200 – 160 – GRT7 TH4 R2 S/PAR
Connection Diag. (left) – G2R 200 – 160 – GRT7 TH4 R2 S/PAR
Possibilities of voltages (derecha) – G2R 200 – 160 – AVC 63 – 2,5
Possibilities of voltages (izquierda) – G2R 200 – 160 – AVC 63 – 2,5
Possibilities of voltages (derecha) – G2R 200 – 160 – GRT7 TH4 R2
Possibilities of voltages (izquierda) – G2R 200 – 160 – GRT7 TH4 R2
Connection Diag. (right) – G2R 200 – AVC 63 – 4A
Connection Diag. (left) – G2R 200 – AVC 63 – 4A
Connection Diag. (right) – G2R 200 – GRT7 TH4 R2
Connection Diag. (left) – G2R 200 – GRT7 TH4 R2
Possibilities of voltages (right) – G2R 200 – AVC 63 – 4A
Possibilities of voltages (left) – G2R 200 – AVC 63 – 4A
Possibilities of voltages (right) – G2R 200 – AVC 63 – 7 1A
Possibilities of voltages (left) – G2R 200 – AVC 63 – 7 1A
Connection Diag. (right) – G2R 250 – 280 – 315 – AVC 63 – 7 1A
Connection Diag. (left) – G2R 250 – 280 – 315– AVC 63 – 7 1A
Connection Diag. (right) – G2R 250 – 280 – 315 – GRT7 TH4 R2
Connection Diag. (left) – G2R 250 – 280 – 315 – GRT7 TH4 R2
Possibilities of voltages (right) – G2R 250 – 280 – 315 – AVC 63 – 7 1A
Possibilities of voltages (left) – G2R 250 – 280 – 315 – AVC 63 – 7 1A
Possibilities of voltages (right) – G2R 250 – 280 – 315 – GRT7 TH4 R2
Possibilities of voltages (left) – G2R 250 – 280 – 315 – GRT7 TH4 R2
Instrucciones para montaje de disp. de paralelo
Instructions for parallel circutry assembling
NÚMERO
DE PLANO
19751
19752/A
20058
19753
19754
19755
19486/A
19487/A
20035/B
20036/B
19488/A
19489/A
20059/A
20060/A
19492/A
19493/A
20008/C
20034/B
19494/A
19495/A
19496/C
19497/C
19498/B
19499/B
19794/C
20037/B
19500/C
19501/C
20061/A
20062/A
19688/D
19689/D
D
C
B
4
A
4
14 17
3
18 19.a
5.b
2
12
8.b
16
8.a
20
5.a
9
11
1
10
4
6
1
D
C
B
15 3 13 2 7
3
DBT s.a.
CRAMACO
£
TECHNICAL DEP.
SPARE PARTS G2R 160 ALTERNATOR
LISTA DE REPUESTOS
ALTERNADOR G2R 160
2
DATE
25/03/2004
DIMENSION:
SCALE:
1:0,06
1
DRAWING Nº
19751
A
D
C
B
A
4
14
20 19.a
3
16 5.b
12
2
8.b
17
8.a
9.a
5.a
18
11
9.b
10
4
6
4
1
D
C
B
1 15 3 13 2
7
3
DBT s.a.
CRAMACO
£
TECHNICAL DEP.
SPARE PARTS G2R 200 ALTERNATOR
LISTA DE REPUESTOS
ALTERNADOR G2R 200
2
DATE
25/03/2004
DIMENSION:
SCALE:
1:0,05
1
DRAWING Nº
19752
A
D
C
B
A
4
4
9
18
20
3
14 16
2
17
5.a
8.a
1
D
C
11
6
4
1
10
B
15 3 13 2 7
3
DBT s.a.
CRAMACO
®
TECHNICAL DEP.
SPARE PARTS G2R 250 ALTERNATOR
LISTA DE REPUESTOS
ALTERNADOR G2R 250
2
DATE
25/03/2004
DIMENSION:
SCALE:
1:0,05
1
DRAWING Nº
20058
A
D
C
B
A
4
4
18 16 17
3
14.5
19.a
12
2
5.b
8.b
8.d
14.2
8.c
20
8.a
14.4
5.a
14.3
11
9
10
14.1
4 6
1
D
C
B
15
3
1
DBT s.a.
CRAMACO
£
TECHNICAL DEP.
3 13 2 7
SPARE PARTS G2R 280 ALTERNATOR
LISTA DE REPUESTOS
ALTERNADOR G2R 280
2
DATE
25/03/2004
DIMENSION:
SCALE:
1:0,04
1
DRAWING Nº
19753
A
D
C
B
A
4
4
18 14.5
3
16 17 19.a
12
2
5.b
8.b
8.d
14.2
8.c
20
8.a
14.4
5.a
14.3
11
9
10
14.1
4
1
D
C
B
6 15 3 1 13 2
7
3
DBT s.a.
CRAMACO
£
TECHNICAL DEP.
SPARE PARTS G2R 315 ALTERNATOR
LISTA DE REPUESTOS
ALTERNADOR G2R 315
2
DATE
25/03/2004
DIMENSION:
SCALE:
1:0,03
1
DRAWING Nº
19754
A
D
C
B
A
4
4
18
14.5
16
3
17 19.a
8.b
2
5.b
19.b
19.c
12
20
14.4
14.2
8.c
9
8.a
14.3
11
14.1
10
4 6
1
D
C
B
15 1 3 13 2 5.a
7
3
DBT s.a.
CRAMACO
£
TECHNICAL DEP.
SPARE PARTS G2R 400 ALTERNATOR
LISTA DE REPUESTOS
ALTERNADOR G2R 400
2
DATE
25/03/2004
DIMENSION:
SCALE:
1:0,03
1
DRAWING Nº
19755
A

Public link updated
The public link to your chat has been updated.
Advertisement
Key features
- Welded iron frame
- Laminated stator core
- Damper cage
- Three-phase brushless exciter
- Static voltage regulator
- IP20S/IP23S protection
- Self-ventilated
- Pre-lubricated bearings
- Parallel operation capability
- Overload protection