2.X671D English Gene Alta Frec X671D

7/27/2019 2.X671D English Gene Alta Frec X671D

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High frequency Generator

Model X671D

Operating manual


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Under the following conditions, the manufacturer shall be held responsible for the

safe reliability and performance:

1. Installation, debugging, alteration and maintenance are all performed by

professionals approved by the manufacturer;

2. Electrical equipments in the machine room are in accordance with relevant

regulations;

3. The product is operated in conformity with the manual.


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Safety PrecautionsIn addition to all the safety technique manuals, provisions (such as Regulationson Occupational Safety and Accidents Prevention) specially stipulated by thestate should be observed during both operation and test.Installation of EquipmentOnly perform tasks according to the technical documentations. After the

installation and before starting up the equipment, be sure that all the protective

grounding wires provided by the manufacturer are properly connected, mountand fix the protective cover casing with screws.

Maintenance of EquipmentSince the equipment involves operation of one person and examination &

diagnosis of others, annual maintenance and inspection on the equipment

should be conducted. Especially, the chain and parts dragged by wire cables

have to be replaced and tested every two years. Regarding the mechanical driveparts, regular services of cleaning, lubrication etc. have to be performed for

them, ensuring safe use of the equipment. Besides, as the equipment contains

parts of high voltage and parts electrically controlled, the user has to

consciously examine the safety concerning insulation and reliability of the

grounding devices. Staff to perform maintenance and examination must be

professional or personnel from designated maintenance centers and with

specific certificates.

Measures of Personal Protection (Occupational Security)First of all, in the interest of operating staffs security, related, legal and internal

regulations and technical requirements concerning labor-protection and

accident-prevention should be observed. The following precautions are

provided for information.

Tension-related jobPerforming operation on parts electrified (>25V AC or 60V DC) is prohibited.

The test point or debugging point has to be at positions which are very

accessible and pose no injury to human If the requirement can not be met then


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Compulsory ReportIn case accidents happen or potential danger that will give rise to accidents is

spotted, the responsible supervising staff shall be informed immediately. In

such a case, observe the current parameters.

Descriptions of the SymbolsIt is a high-voltage component or testing point that may cause electricshock or human injury.The component may produce radioactive ray when turning on a relatedswitch.

Attention shall be taken to the fixed parts in mounting, and it shall be madesure whether the bolts and positioning pins are fixed properly or fixingmoment is appropriate.


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ContentsChapter 1 General description --------------------------11Product character-------------------------------------12Main usage------------------------------------------13Transportation and storage environment requirement----------1

Chapter 2 Operation manual----------------------------21. Structure--------------------------------------------22. Installation manual ------------------------------------23. Operation manual-------------------------------------2

a. Precautions in operation ------------------------------2b. Configuration Features -------------------------------3c. Analysis of main circuits------------------------------3

4. Symptom and trouble-shooting -------------------------105. Cleaning and disinfection ------------------------------126. Safety Precautions -----------------------------------13

Chapter 3 Technical manual---------------------------141. Working condition------------------------------------142. Main technical parameters -----------------------------143. Appropriate combination of tests to verify and test load factors -16

Figure:Figure1: Power control diagram 1Figure2: CPU control board 1 diagramFigure3: Console display diagramFigure4: Console keyboard diagramFigure5: Interface board diagramFigure6: kV control diagramFigure7: mA control diagramFigure8: IPM drive diagramFigure9: Main inverter diagram


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Chapter 1 General description1. Features

X671D high-frequency high-voltage generator is developed with high frequency

inverter technology and outputting stable high voltage. It has the steadier X-ray

intensity, lower soft and higher efficiency X-ray than routine generators, so people

can absorb less X-ray. High-voltage cable, suitable X-ray tube and X671D are

composed of a set of High frequency medical diagnostic X-ray radiography unit

completely. The doctor will get high quality image thanks to this generator. Theunit is easy to control. It will self-check at beginning, and the control desk will

display all the error number, if there are some troubles. After ready, the green light

will be on. When exposing, the yellow light will be on. Exposure parameters kV,

mA, mAs can be selected through button. The three parameters are limited by

software. Press buttons on the control panel to switch operating mode. All the

information is displayed on LCD. A good interactive interface is more convenient

for doctors to read the information. X671D is designed for all kinds of hospitals

2.Main usageX671D can do general fluoroscopy and radiography, gird radiography and

tomography.

Normal radiography for each parts of body, and chest radiography (rotated 90

degree).

3. Transportation and storage environment requirementPacked product can be stored for 15 weeks under the conditions below:

A Environment temperature field 10 +40

B Relative humidity 30%75%

C Air pressure field 70106kPa

Stored in where without cankerous air and with good draughty.


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Chapter 2 Operation manualI. Structure

Full view of high-frequency high-voltage generator

II. Installation instructions1) Environmental conditions

z Environmental temperature: 5~40

z Relative humidity: 30%~75

z Atmospheric pressure: 700~1060hPa2) Power supply conditions

z The power supply shall be of 220V in single phase, 50Hz in frequency,

and in sinusoidal wave. The allowable voltage variation range is

220V10%, and the allowable frequency variation range is 50Hz1Hz.

z The internal resistance of the power supply shall not be more than 0.15.

z The minimum power capacity shall not be less than 1kVA.

3) Installation site

The installation site shall have enough space, and it shall be clean and dry, and

keep far away from interference source.

Precautions:The equipment is precision instrument, and it shall, after the packing case is

removed, be checked carefully whether all packages are in good condition orthere is any damage. If any abnormity is found, please contact the dealer or

manufacturer immediately.

III. Operation instructions


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and wear protective clothes (lead cap, lead apron, and lead gloves). The machine

allows a distance of 45cm or more from the focus to skin.

b. As the machine is operated in partitioned room, the operator and patient may

communicate by way of microphone.

c. If the unit should to power off, please make sure cut the electrical gate on the

wall.

d. Please turn down the collimator when the fluoroscopy is done, so that the

fluoro view would not larger than the interface of the intensifier.

2) Configuration Featuresa) X671A high-frequency high-voltage generator is an accessory of the 300mA

medical diagnostic X-ray machine. It is used to provide cathode filament

voltage and anode high voltage for X-ray tube, and contains generator

control CPU board, adjustment board, interface board, and filament board,

and the transformer oil in its case is used for insulation and cooling of the

high-voltage generator. The transformer oil shall, if it needs replacing whilerepairing, be filtered to remove the moisture and impurities of which, and get

rid of the small bubbles in which vacuumed before it is used.

b) After opening the upper cover, the top plate of the high-voltage generator

may be seen, in which P1 and P2 are high pressure primary terminals

providing primary pressure for high-voltage generator, the 9-core terminal in

the middle provides kV and mA feedback signals, large and small focussignals, and earthing signals. + and - refers to anode and cathode

plugholes respectively.

c) While X-ray high-voltage generator is in service, the center line from the

focus to image receiving surface shall be perpendicular to the image

receiving surface, or in other words, the datum axis shall be perpendicular to

the image receiving surface. Therefore, during radiography, the projecting

center and scope may be determined according to position of the datum

axis.

d) The power cable includes 3 wires. Its cross-sectional area is 16cm2.Single

phrase lines connect with two fuses (5A/500V) separately in the generator. If


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The machine has 4 working modes: manual perspective, IBS perspective,

common radiography, and pulse radiography, which are switched by the mode

selection key on the panel. Manual perspective is the normal mode, from which

the machine may enter into or exit from IBS perspective mode. The 4 working

modes are similar in mA and kV setting, samplings, comparison, trigger pulse

generation, and drive circuit.

c. Manual perspective

In normal manual perspective, settings of kV and mA are done through

Perspective kV+/- and Perspective mA+/- respectively. After pressing the foot

switch and confirming the computer is effective, main inversion and filament

inversion will start to produce trigger pulse, and the complete machine will start

working with load. After balance is reached between the set kV and mA and the

sampling kV and mA, the complete machine will enter into a stable working

state. If the perspective kV and mA settings are changed, it shall be necessary

to reach the balance again.

d. IBS perspective

After entering into IBS mode, the manual perspective kV settings will become

invalid. The IBS signal and brightness set the level comparison to create kV

setting value. Press the foot switch, the machine will start working with load. At

this time, only perspective mA adjustment is effective, and balance will be

reached between sampling kV and mA and the set kV and mA.

e. Photo exposure

After entering into radiography mode, the computer will determine the set kV

and mA values according to selected radiography condition parameters, switch

D/A output through AD7524. After the hand brake is valid, raise temperature of

the filament first, and the current used for raising the temperature is determined

by corresponding kV and mA values. Different kV and mA values shall match

different currents for filament temperature rise. After filament temperature rise

completes, the main inverter circuit starts to be triggered to produce kV, and at

the same time, the computer will measure mA (the mA sampling value is only

1/10 of that in perspective) and determine increase or decrease of the current


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The failures include serious ones (in hardware) and minor ones (in software).

Minor failures may be restored by pressing RESET, and serious failures include

Err 01, Err 03 and Err 05, which must be examined while the machine ispowered off. The machine can only be restarted to enter into normal working

state after the failure is eliminated.

h. Sampling

The mA sampling of the machine is done by closed circuit of the tube current,

and kV sample is obtained by resistance voltage divider in the oil box. Both kV

and mA are sampled in +/- dual-edge way.

2. Power control (circuit diagram X671D-00-DL1)a. Standby state

After the host is connected to the network source, the interface board

transformer T2 will start working. T1 discharges AC 18V in secondary output,

which will, after being rectified, filtered and stabilized, generate AC voltage of

about 24V at both ends of C2. At this time, the switch I (ON key) and O

(OFF key) are in off state, V5 is cut off, and K1 and KL are not working.

b. Startup

If I(ON keyis connected, the solenoids of K1 and KL will be energized after

being switched on, and the relay K1 and KL will actuate. K1 has one group of

contacts for self-sustaining and another group of contacts for KL to actuate.

The AC 380V power after KL actuates will be connected to the host system.The AC 220V power that is provided by one phase line and one neutral will,

through isolation transformer, provide power to various systems of the host in

different voltage values.

c. Shutdown

If the switch O(OFF keyis connected, V5 will be cut off, K1 and KL will

release, the AC 380V power will be cut off, the host will be disconnected from

the network source and stop working.3. DC powerBy way of switch power, the complete machine provides various kinds of DC

low-voltage power for microcomputer system and control system, which include

+5V, 15V, and zero potential.


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D5 is the encoder, and it will give out chip select signals according to the address

data of A10A15 to validate the chip selected by D9, D11, D12, D13, D16 or

D20.D3 is read-only memory used to store control program, arithmetic constants,

fixed variables and data. For the 2 external interrupts of the 8031, INT0 is used in

malfunction interrupt, and INT1 is used in keyboard interrupt, which may reduce

the main program cycle time and strengthen kV and mA monitoring and the

reaction time of failure protection. D12 and D13 are D/A switching circuits, and

the computer output data such as tube voltage, tube current and filament

temperature rise value are converted by D12 and D13 into analog values that are

delivered to the tube voltage adjustment and filament heating circuits. D9 is A/D

switching circuit to monitor the changes in kV, mA and filament current.

5. Display and keyboard operation (circuit diagram X671D-00-DL3 X671D-00-DL4)

Display is completed by D16SED1330LCD drive chip, and the keyboard

scanning and indication are completed by D20 (8279).

6. Filament heating and filament current adjustment (circuit diagramX671D-00-DL10)

The power transformer sends AC40V voltage to filament board through XF1

and, after being rectified by V1, to provide power to the filament inversion

transformer. The input voltage AC 10V provides power to the filamentinversion trigger circuit after being rectified by V16. The filament inversion

trigger signals that are given out by the adjustment board (X671-00-DL7) D3

is, after being isolated by optocoupler E2, sent to base electrodes of the

filament board (X671-00-DL10) V9 and V20, and after being amplified and

driven by V9 and V20, the trigger signals are sent to input ports of the trigger

pulse transformer T2 and T3. Each trigger pulse transformer sends out two

lines of cophasal trigger signal, and they will simultaneously trigger the fieldeffect transistor diagonal to the inverter. The phases of the t rigger signals sent

out by the two trigger transformers have an error of 180, which may ensure

that two field effect transistors at any edge will not be conducted at the same

time to result in inversion short circuit.


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In radiography mode, K2 in the adjustment board actuates, and the computer will

output preset tube voltage digital value and, after being converted by D/A, output

kV set value through N2D. In normal manual perspective mode, the circuit has thesame working state as radiography. In IBS mode, K2 will actuate, IBS signal will,

after comparing integral with the brightness set electric level, give kV set value

through N2C, and the brightness set electric level may be regulated through R01

potentiometer (6V in general circumstances). The analog voltage value at the test

point kV-set and the actual tube voltage keep a relation as 1V40kV, while

the analog voltage value at the test point "kV-samp" is the actual tube voltage

sampling value, and the sampling value and the actual tube voltage keep the

same relation as 1V40kV. The set value and the sampling value are compared

and amplified by operational amplifier N3: A to produce an error voltage and

the error voltage will be sent to the pulse width modulator to be converted into

two groups of 30 KHz trigger signal in different pulse width. The trigger signal is

sent to IPM drive board and, after being isolated by optocoupler, drives IPM

module for the inversion bridge to make inversion.

The amplitude of the actual tube voltage is influenced by inversion current of

the inversion bridge, and the amplitude of the inversion current is decided by

the trigger pulse width at the same time. When the actual tube voltage value is

less than the set value, the trigger pulse will become wider to raise the kV value

near the set kV value. When the actual tube voltage value is larger than the set

one, the trigger pulse will become narrower to down the actual kV value near theset one. The closed-loop adjustment of the tube voltage is then completed.

8. Tube current adjustment (circuit diagram X671D-00-DL7In radiography mode, K1 actuates, and the computer will output preset tube

current digital value and, after being converted by D/A, create mA-SET value

through N1. The analog voltage value at the test point mA-set and the actual

tube current keep such relation as: for model DHX-30: 1V 100mA, and for model

DHX-50: 0.8V100mA (at the same time, at the test point mA-SAMP, the analog

voltage value and the actual tube current keep such relation as: for model DHX-30:

1V 100mA, and for model DHX-50: 0.8V100mA).

In normal manual perspective and IBS modes, except for K1, other circuits work


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finally change the anode current of the X-ray tube for the X-ray tube current to

enter into closed-loop adjustment state.

9. Trigger and IPM inverter circuits (circuit diagram X671D-00-DL8 X671D-00-DL9)

After being sent to the trigger board, the voltage AC220V will be transformed

into AC15V by isolation transformer T1. After being rectified by V1 and V2 and

filtered by C1 and C2, it will, through V3 and V4, form reference power supply

for DC15V drive circuit. The main inversion trigger signal will, after being

isolated by the optocoupler, be sent to the trigger board by the adjustment

board and drive IPM module trigger port through E1 and E2.

The DC310V voltage, which is transformed after the AC220 power is rectified

and filtered, is added through LM1 to the Inversion Bridge that is made up of

IPM intelligent module MODUL and MODUL. In exposure, the trigger pulse

signals, after being driven, will trigger alternatively to produce AC output in the

same frequency as the trigger signal.

The inversion power has a trigger frequency of 30KHZ, and the width of the

trigger pulse is determined after comparison operation is done between the kV

set value and the actual kV sampling value. During kV setting process when

exposure is done initially, the trigger pulse outputs in maximum pulse width,

and after kV is set and stable, the trigger pulse will output in a comparatively

narrow pulse width to maintain the energy that is required by output inverterload.

10. Circuit for high-voltage transformer unit and sampling circuit (circuit diagramX671D-00-DL9)


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The primary output voltage of the

high-voltage transformer T1, T2, T3, andT4 are connected the output port IV1 and

IV2 of the main inverter. The secondary

output voltage of T1 outputs voltage +U

after it is rectified in double voltage and

filtered by V1, V2, C1 and C2. The

secondary output voltage of T2 outputs

voltage +U after it is rectified in double

voltage and filter by V3, V4, C3 and C4,

and it forms kV+ after being connected in

series. The secondary output voltage of T3

outputs voltage -U after it is rectified in

double voltage and filtered by V5, V6, C5

and C6. The secondary output voltage ofT4 outputs voltage -U after it is rectified in

double voltage and filtered by V7, V8, C7

and C8, and it forms kV- after being

connected in series. kV+ and kV- will,

through mA sampling resistor, be earthed

in neutral.

R1 and R2 are sampling resistors of kV. T5 is the filament power transformer.The high-voltage equivalent circuit and kV and mA sampling circuit diagrams

are shown in the drawing.

When the power is in the positive half circle, it will charge C1, C3, C5 and C7.

When the power is in the negative half circle, it will charge C2, C4, C6 and C8.

The kV+ and kV- are earthed at the neutral point, kV+=+4*UkV--4*U, so the

output kV=8U.

The tube current will produce voltage drop when it flows through R36 (R37) and

R38 (R39), and the voltage signal will be sent to mA closed-loop adjustment

system after being amplified.

The tube voltage is divided by R12-3R12-4 and R2R1 to transform high

voltage into low voltage After being amplified it will be sent to kV adjustment


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be effective when closed.

Vertical radiography and beam filter radiograph: this machine may provide 2relays KLS and KTAB in vertical radiography and beam filter radiograph that are

used to drive the electric beam filter. When the relay of hand brake 1 closes and

hand brake 2 is cut off, the electric beam filter will give out return signal. The

interfaces are XI9-6vertical radiographyXI9-5bed, and it will report a failure

if there is no return signal.

Tomography: this machine provides two relays KTOMO1 and KTOMO2 for

tomography to start up tomography. During exposure process, exposure is jointly

controlled by MAS and the tomography return signal XI9.4. If MAS has arrived but

the return signal has not, it will report a failure.

Spot film radiography: Spot film radiography shall be done by pressing the spot

film radiography key. In perspective mode, press step 1 of the hand brake, the

machine will be switched to spot film mode. The relay KDT1 gives a startup signal,

and 1.3S later, it will check the return signal (XI9-2). If no exposure is made, a

failure will be reported. Continuous exposure may be done in such mode.

Digital spot film: press the pulse radiography key in radiography mode, and press

step 1 of the hand brake in perspective mode, the machine will be switched to

digital spot film mode. The relay KDT1 gives a startup signal, and 1.3S later, it will

check the return signal (XI9-3). If no exposure is made, a failure will be reported.

If exposure is made, the synchronizing pulse will be entered through SYNC. If theexposure times are enough, EXREQ will end it, or if not, wait.

For safety consideration, the exposure of this machine is subject to both foot

switch and hand brake. If the foot switch or the hand brake is released, exposure

will be stopped.

Overload: overload is entered through XI9-1 for thermal protection of the tube.

IV. Symptom and trouble-shootinga. When the machine has failure, kV will display Err, and mAs will indicate the


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Err 05 The tube voltage is too high.

Err 06 The tube voltage sampling is

abnormal.

Err 08 The tube current sampling is

abnormal.

Err 10 The step II of the hand brake fails to

be pressed within 5 seconds.

Err 11 The hand brake is released in

advance.Err 12 Overloaded

Err 15 The filament current sampling is

abnormal.

Err 18 Charging. Please wait for a moment.

b. Trouble-shooting

If a failure code is shown, user shall stop the machine. If it is a minor failure,user may press RESET, and the display will restore the contents before the

failure happens, and the machine may be back to normal. If it is a major failure,

which may be Err 01, Err 03 or Err 05, the failure code cannot be eliminated;

user shall stop the machine and restart it for a try, or ask professional personnel

to repair.

Failure code Trouble-shootingErr 01 Restart up the machine after releasing Step I of the hand

brake. If the failure fails to be eliminated, check whether the

hand brake is damaged or whether the related circuits related

to CPU board have problems.

Err 02 Restart up the machine after releasing Step II of the hand

brake. If the failure fails to be eliminated, check whether thehand brake is damaged or whether the related circuits related

to CPU board have problems.

Err 03 Check the voltage values of all points at the trigger end of IPM

module and check whether the photo coupler E3 and E4 of the


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Err 08 This failure shows that mA detected value is too low or is zero.

The first step is to check whether the filament has inversion

output. After the host is reset, check the power of the filament

board, the lamp V2 and V19 will be on. In addition, check

voltage value of XF1 and XF6. If all is in good condition, user

shall check whether P2 and P3 have trigger pulse, and then

search for the cause according to the circuit program.

Secondly, this failure may also be caused for the main inverter

has no output, or has no high voltage in other word. UseAC1000V to detect IV1 and IV2 during exposure, and its

voltage value should be between 500 to 600ACV. Thirdly, this

failure may also be caused by incorrect signal of the hand

brake or abnormal A/D switching.

Err 10 Press Step II of the hand brake within 5 seconds.

Err 11 Release the hand brake after exposure completes. If the

failure still exists, please check related circuit.

Err 12 Check the circuits related to CPU board.

Err 15 Check whether the filament board related circuits and the

filament of X-ray bulb tube is damaged.

Err 18 This error would disappear automatically after about a minute

V. Cleaning and disinfection1. Cleaning

The power line must be unplugged before cleaning.

The painted parts shall be cleaned with soft cloth and soap water, and corrosive

detergent, solvent or abrasive shall not be used.

Make sure that the detergent will not seep into the machine.

The chrome-plated parts shall be cleaned with soft cloth and neutral detergent,

and corrosive detergent, solvent or abrasive shall not be used.


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Disinfection shall not be done in spraying way.

The machine shall be covered when evaporating disinfection is done tosurrounding space of the machine to make sure no disinfection steam enters

into the machine. If UV lamp may do, disinfectant shall not be used if possible.

VI. Safety Precautions1. Installation, commissioning and operation shall accord with the instructions

and related national rules such as Regulations for occupational safety and

accident prevention, etc.

2. As an electromechanical device that may produce high voltage, insulation and

earthing protection of the machine are very important. Before its initial operation

after being installed, or after it has been used for a period of time (every half a

year), it shall be checked carefully whether all earthing cables are connected

firmly, whether the protective enclosure is mounted properly, and whether the

high and low-voltage electric devices are insulated soundly.

3. No operations shall be done on any electrified parts (above 60VDC25VAC). If

live test must be done (the testing point shall be set at a place where contact is

convenient), the testing person shall stand on an insulated mattress (2000V),

and there shall be enough space around (a space for retreat in case of electric

shock) with guardian nearby.

4. The moving parts of the machine shall be cleaned and lubricated regularly to

ensure their proper running and safety of operators.

5. Any commissioning that may have radiation shall be done at least 3 meters

away from the bulb tube within as short a time period as possible, or it shall be

done within a 2.0mm lead shield.

6. The maintenance must be done by certified professional persons.

7. The heat radiation of IPM in the generator is done by radiator, while the

maximum heat radiation is 10.7W. The computational formula is Q=KFT. In

this formula K is heat transfer coefficient 6 58 F is the square of radiator


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Chapter 3 Technical manualI. Working conditions1. Environmental conditionsa. environmental temperature: 1040

b. relative humidity: 3075

c. atmospheric pressure: 7001060hPa

2. Power supply conditionsThe main circuit of this X-ray high-frequency high-voltage generator is

designed in AC single-phase 220V, 50Hz, and sinusoidal waveform. The power

supply shall be in one phase line, one neutral line and one earthing, and it shall

be equipped with a breaking switch that may cut off 3 phase lines

simultaneously. The switch and its accessory fuse shall not have their capacityless than 5A. This machine is not allowed to be connected to temporary

small-capacity power generator, or work in parallel with other instantaneous

large-load equipment in a same line.

Allowable fluctuation range of mains voltage: 220V10% V

Allowable internal resistance range of the power supply: 0.15

Allowable variation range of the power frequency: 50Hz1Hz

Rated value of overcurrent releaser: 5A

Rated earth leakage current of the leakage protector: 20mA in electromagnetic

system

Running mode: Intermittent loading continuous running

II. Main technical parameters1. Maximum output power and highest rated tube voltage

Maximum output power: 90kV, 300mA, 30mAs


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2. Maximum output powerContinuous mode: 110kV 5mA 550W

Intermittent mode: 90kV 300mA 30mAs 27kW

3. Nominal output power100kV 200mA 20mAs 20kW

4. Radiography tube voltage adjustment rangeThe radiography tube current is adjusted in 5 steps with an adjustment range of

50 to 300mA, and the detailed may be determined according to R10 series in

Appendix BB of GB9706.3-2000.

The radiography tube current time is adjusted in 45 steps with an adjustment

range of 1.0 to 250mAs, and the detailed may be determined according to R20

series in Appendix BB of GB9706.3-2000.

The relationship between each parameter

mA kV mAs40 110

41-50 90

51-60 71

61-70 5071-79 36

300

81-90 28

40 180

41-50 160

51-60 140

61-70 11071-79 100

81-90 90

93-100 71

102-117 50

200


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40 200

41-50 140

51-60 11061-70 90

71-79 71

81-90 63

93-100 56

102-113 40

50

117-125 325. Perspective adjustment rangePerspective kV adjustment range: continuously adjustable from 40kV to 110kV.

Perspective mA adjustment range: continuously adjustable from 0.5mA to 5mA.

Perspective capacity protection: alarm will be given after perspective is done for

4.5 accumulative minutes and the machine will stop after 5 accumulative minutes.

After alarm is given, press RESET, the alarm will be cleared, and loading may

continue.

6. Automatic height functionOn condition that mA is preset, the perspective kV is controlled by IBS signal to

complete automatic brightness adjustment.

Caution IBS function could only be used when there is an imagingintensifier system.

7. Main inversion flipping frequency: no lower than 30 kHz + 1 kHz.

III. Proper combination for test verification and test of loading factors) Repeatability and linear test combination for X-ray output is sown in Table 12:

Table 12 Experiment condition for testing air Kerma


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NOTE

1 Settings from A to D are used in repeatability test; settings from E to F are

used in linear and stable test.2 It is required to reset the loading elements to the selected value before

every loading when the ten times experiments are preceded.

II) Uniformity test combination of loading factor indicating value and measuringvalue

1. X-RAY tube voltageIntermittent mode

40kV 300mA 1mAs

40kV 300mA 32mAs

125kV 160mA 16mAs

Continuous mode

99kV 1.0mA66kV 1.0mA

2. X-RAY tube currentIntermittent mode

50mA 125kV 1mAs

50mA 125kV 5mAs

200mA 100kV 32mAs

Continuous mode1.0mA 40kV

1.0mA 125kV

3. Accumulate of the current and time1mAs 160mA 125kV

250mAs 160mA 40kV

4. Combination of 1mAs50mA 0.02s 1.0mAs

100mA 0.01s 1.0mAs

160mA 0.00625s 1.0mAs

200mA 0.005s 1.0mAs

300mA 0 003s 1 0mAs


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c. Test instrument and accuracy

KV201D-model voltage box, tube voltage peak voltmeter

Storage wave displayer

d. Test method

1) Test the tube voltage in KV201D voltage box interference mode, and measure

kV and mA with storage wave displayer.

2) The tube voltage sampling time shall not be less than 100ms.3) Loading repeat count: 10 times. The loading factor combination is shown in

6.2.1.

e. Test result calculation and evaluation:

%100

=

PV

VP

VPAE

PAE: percentage of average errors in 10 times

Vp: prediction value

V : sampling observation average value

6. Tube current test method of X-ray tubea. Error in tube voltage: the tube voltage value under each step of tube current

shall be within the error range of the tested machine

b. Connect in series the tube current meter for test to main circuit of the tube

currentc. The sampling time of the tube current meter shall not be less than 100ms.d. The loading shall be repeated for 5 times.e. Test result calculation and evaluation

When calculating the specified tube current error, its average effort percentage

is calculated as follows:


24/41

b. Connect in series the mAs meter for test to mA test circuit of the X-ray

high-voltage generator.

c. The loading factor shall accord with 6.2.2, and the loading shall be repeated 5times.

d. Calculation and evaluation of test result

When calculating the specified error in current time product of the host, its

average error percentage is calculated as follows:

PAE

mAs mAs

mAs

P

P

=

100%

PAE: percentage of average error in 10 observations

mAsP : prediction value

mAs : average value of sampling observation

Other test conditions are similar to those for tube voltage test.

8. Perspective tube voltage and current adjustment range and performance test ofalarming device

a. Test of perspective tube voltage

Test of perspective tube voltage shall be done at the same time as the one

stated in 6.3. The perspective tube voltage shall be adjustable continuously,

and its upper limit is 110kV and lower limit is 40kV.b. Test of perspective tube current

Test of perspective tube current shall be done at the same time as the one

stated in 6.4. The perspective tube current shall be adjustable continuously,

and its upper limit is 5mA and lower limit is 0.5mA.


25/41

CPU

Name Specifications Amount Model Remark

Test 7 R,FREQUENCE,DAMA,DAKV,+10V, VADJ,VEE

33pf/35v 4 C1,C2,C17,C18

100pf/35v 2 C9,C10

1nf/35v 2 C8,C11

0.1uf/35v 16

C3,C6,C7,C12,C13,C14,C1

5,C21,C23,C24,C25,C26,C

27,C28,C29,C30

5uf/35v 1 C16

10uf/35v 4 C4,C5,C20,C22

Capacitance

1000uf/50v 1 C19

8031 1 D1 DIP40

74LS373 1 D2 DIP20

27256 1 D3 DIP2874LS138 2 D5,D19 DIP16

AD7574NJ 1 D9 DIP18

2816A 1 D10 DIP24

8255 1 D11 DIP40

SED1330 1 D16

62256 1 D17 DIP2874LS00 1 D6 DIP14

74LS04 3 D4,D8,D21 DIP14

8279 1 D20 DIP40

74LS32 1 D7 DIP14

4584 1 D14 DIP14

4066 1 D15 DIP14

2003 1 D18 DIP16

IC circuit

AD7524 2 D12,D13 DIP16

Optocoupler TLP521-4 3 E1,E2,E3 DIP16

IC Op Amp TL084 2 N1,N3 DIP14


26/41

5K 1 R6

200R 2 R12,R13

SIP-5-1K 3 R8,R10,R23SIP-5-3K 2 R7,R11

SIP-9-5.1K 1 R22Resistance row

SIP-5-10K 1 R1

Reset key 1 RES

DIP switch DIP-4 1 SW

Silicon Bridge 2A/50V 1 V910V 1 V1Voltage

stabilizer 15V 2 V2,V3

Diode IN4007 2 V7,V8

2510HX-4P 4 XC1,XC4,XC5,XC11

2510HX-6P 4 XC7,XC10,XC12,XC13

2510HX-8P 1 XC6

2510HX-10P 3 XC3,XC9,XC14

Socket

DDKC-20P 2 XC2,XC8

12MHZ 1 XATL1crystal

oscillator 10MHZ 1 XATL2

Trigger Board*2


Test 8 P1,P2,P3,P4100uf/35v 4 C1,C2

10uf/35v 4 C3,C4Capacitance

0.1uf/35v 8 C5,C6,C7,C8

Silicon Bridge 2A/50V 4 V1,V2

Resistance 6.8K 4 R1,R2

Resistance

row SIP-5-3K 2 R3

IC Regulators MC7815T 4 V3V4

TLP521-1 4 E3E4 DIP8Optocoupler

6N137 4 E1E2 DIP8


27/41

33nf/35v 2 C9C10

1uf/35v 1 C7

100uf/35v 2 C12C131000uf/35v 2 C6C11

1000uf/63v 2 C1,C14

Relay JZC-22F-24V 2 K1,K2

IC Regulators LM723 1 N1 DIP14

10R/1W 6 R1,R3,R4,R5,R6,R25

1R/10W 2 R7,R840R 4 R14,R15,R16,R17

360R 4 R10,R11,R12,R13

470R 2 R23,R26

1.5K 1 R22

3K/2W 1 R2

5.1K 1 R18

10K 4 R9,R19,R20,R24

12K 1 R21

Resistance

220R 2 R27,R28

Pulse

transformerKCB472/104 3 T1T2T3

5A/200V 1 V1Silicon Bridge

2A/50V 1 V16Fast diode MWR1660 4 V12V13V14V15

Light emitting

diodesGreen 2 V2V19

Diode IN4007 5 V7V8V10V11V17

CMOS IRF740 4 V3V4V5V6

Triode TIP122 3 V9V20V18

5.08-2P 4 XF1,XF3,XF5,XF6Socket

2510HX-4P 2 XF2,XF4

Adjustment plate



28/41

3K 1 R7

5.1K 10R12,R17,R18,R28,R29,R3

3,R43,R44Precision

R9,R32

10K 14

R11,R13,R14,R16,R19,R2

0,R27,R26, R15

R42,R35,R40,R41,R24

Precision

20K 4 R21,R22,R23,R45 Precision

24K 2 R4,R46

51K 4 R8,R5

510K 1 R10

SIP-5-3K 1 R31

SIP-5-5K 1 R1

SIP-5-10K 1 R2Resistance row

SIP-5-24K 2 R6,R25

1nf/35v 8 C6,C7,C15,C18,C21,C23,C27,C28

4.7nf/35v 1 C20

10nf/35v 5 C1,C12,C16,C34,C35

100nf/35v 16

C2,C8,C9,C10,C11,C13,

C14,C17,C19,

C22,C26,C30,C32,C33,C4,C5

Capacitance

1uf/35v 4 C3,C24,C25,C29

Relay DS2E-M-24V 2 K1,K2

Optocoupler TIP521-2 2 E1E2 DIP8

Regulator tube 5V 1 V10

IC Op Amp TL084 4 N1,N2,N3,N4 DIP14

TL494 2 D1D3 DIP164011 1 D2 DIP14IC

4066 1 N5 DIP14

Silicon Bridge 2A/50V 1 V1

V1 V2 V3 V4 V9 V11 V12


29/41


2A/50V 2 V1,V6Silicon Bridge

5A/200V 1 V15

Optocoupler TLP521-2 11E1,E2,E3,E4,E5,E6,E7,E8,E

9,E10,E11DIP8

1000uf/50v 2 C1,C5

1uf/400v 1 C3

1uf/35v 2 C2,C6

100nf/35v 3 C9,C10,C11

Capacitance

2.2nf/300v 1 C8

100R/2W 1 R3

2R/10W 2 R6,R20

330R 2 R9,R21

620R 1 R22

5.1K 1 R5

Resistance

10K 1 R2

SIP-5-10K 1 R1

SIP-5-5K 6R8R12R14R15R18

R19Resistance

row

SIP-5-1K 6R7R10R11R13R16

R17

IC Regulators MC7824T 2 V2V7Triode TIP122 2 V5V25

TRIAC BT136 1 V16

bi-directional

diodes1 V17

2004 2 D1D7 DIP16

74LS00 2 D5D6 DIP14IC Circuit

74LS04 3 D2D3D4 DIP14

Reset key 1 DIS

Light emitting

diodesGreen 2 V3V8


30/41

2510HX-4P 2 XI3,XI4

2510HX-10P 2 XI8,XI9

DDKC-20P 1 XI5Socket

5.08-4P 11

XI1,XI2,XI6,XI7,

XI10,XI11,XI12,XI13,XI14,XI

15,XI16

DIP8 11

DIP14 5IC Slot

DIP16 2

Panel


Green 30

V1,V2,V3,V4,V5,V6,V7,V8,V

9,V10,V11,V12,V13,V14,V1

5,V16,V17,V18,V19,V20,V2

1,V22,V23,V24,V25,V26,V2

7, V28,V29,V30,V31,V32Green square 1 88

Yellow square 1 88

Light-emittin

g diodes

Red square 1 88

Resistance 330R 5 R1R2R3R4R9

Triode PNP 4 V33V34V35V36


31/41

X671DVer.01-2010.03

- 1 -

1 2 3 4 5 6

A

B

C

D

654321

D

C

B

A

Title

Number RevisionSize

B

Date: 3-Mar-2010 Sheet ofFile: D:\Drawing\px100\PX1000 PX2000\X671D\X671D-00-DL1.DDBDrawn By:

FU1

10A

FU2

10A

L

N

KL1

KL2

50R/100W

R2

50R/100W

R1

Single Phase Rectifier Bridge

FU3

3A

FU4

3A

FU5

6A

Filter1

Filter2

13

14

LM1

680/100W

R3

680/100W

R4

X671D-00-DL8

5

6

811

12

X16-1 XF1-1

X16-4 XF1-2

X671D-00-DL10

Coll imatorLamp

X671D-00-DL3XC5

X671D-00-DL10

T1

24V5W

XI1.1

XI1.2

1

2

3

4

Vin1

GND

2

+24V3

V2 MC7824T

Vin1

GND

2

+24V3V7 MC7824T

C21uf

R1-110K

V3

K2.2K1.2

C3

1uf400V

C41uf400V

R3100/2W

R4100/2W

XI1.3

XI1.4

KL

V25

NPN

V9 K2 R1-310K

1

2

3

4

D?

C61uf

R55.1K

V8

K2.1 +24V

GK1

XI4.1

XI4.2

+5V

V4

V5

NPN

K1.1

K1 R1-210K

R7-11K R7-1

1K

87

12

+5+5V

C1

1000uf

C51000uf

XI3.1 ON

XI3.2 OFF

X671D-00-DL4

XI3.3

XI3.4

XI5.2BUF

X671D-00-DL2XC2

C710nf

+5V

XK3

AV45V

AC24V

AC21V10W

AC24V

AC15V

E1A

X671D-00-DL5X671D-00-DL6

RELAY POWER

2000uh

XI11.1

XI11.2X671D-00-DL5

+

_

Capacitance

V+

V-

+

_

X671D-00-DL9

XI6.2

XI6.3

X671D-00-DL5

DC15V

DC-15V

DC5V

DC0V

X671D-00-DL3

XC11

XA2

X671D-00-DL6

2

3

4

1

Switch Power

Interface1

FU6

10A7

Box

Power Control Diagram 1X671D-00-DL1


32/41


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- 3 -

1 2 3 4 5 6 7 8

A

B

C

D

87654321

D

C

B

A

Title

Number RevisionSize

A3

Date : 3 -Mar- 20 10 S hee t o f File: D:\Drawing\px100\PX1000 PX2000\X671D\X671D-00-DL1.DDBDrawn By:

D059

D160

D21

D32

D43

D54

D65

D76

CS56

A057

WR50

RD51

GND13

RES47

XG54

XD55

VCC58

SEL153

SEL252

VA1527

VA1428

VA1330

VA1231

VA1132

VA1033

VA934

VA835

VA736

VA637

VA538

VA439

VA340

VA241

VA142

VA043

VD719

VD620

VD521

VD4

22

VD3 23

VD224

VD125

VD026

VR/W44

VCE45

XD37

XD28

XD19

XD010

XSCL12

XECL11

LP14

WF15

YSCL18

YD17

YDIS16

TEST#46

TEST148

TEST249

D16SED1330

R1-310KC16

5UF

+5

XTAL2

C18

33P

C1733P

+5

R12200

V4

2A C191000UF R03

5K

V7

C2010UF

C210.1uf

R045k

R13200 V8

C2210UF

C230.1uf

+5

+5

C280.1uf

6

5

8

3

13

1

4

2

9

10

11

12

X671D-00-DL2

Console Display Diagram

CPU BOARD II

622561

2

3456789

10

25242123

26A14A13A12A11A10A9A8A7A6A5A4A3A2A1A0

1112131516171819

WE

OE

CS20

22

27

D17

LCD Display

LM337

VEE

VADJ

1

4CN3

VEE

VADJ

DA0DA1DA2DA3DA4DA5DA6DA7

ARF400

A0

RW

V5 V6

XC5

X671D-00-DL1

D7D6D5D4D3D2D1D0

31

31

2

AC21V

XC4.1

XC6.7

XC6.6

XC6.8

XC6.5

XC6.3

XC7.5

XC6.1

XC6.4

XC6.2

XC7.1

XC7.2

XC7.3

XC7.4

LM3372

C240.1uf

C270.1uf

C250.1uf

C260.1uf

+15

-15+5

XC11

1

2

3

4

X671D-00-DL1

1 2

D21A

74LS14

3 4

D21B

74LS14

5 6

D21C

74LS14

89

D21D

74LS14

10 11

D21E

74LS14

12 13

D21F

74LS14

R10-2 1K

R10-2 1K

R23-1 1K

R23-2 1K

R23-41K

R23-31K

R11-3 3K

R11-2 3K

C290.1uf

C300.1uf

+15

+15

+15

+5

+5

+5

+5

+5

+5

XC12

XC13

Digital Image system

P35

HAND1

HAND2

READY

SYNC

EXREQ

X671D-00-DL2

XC4.4

12

3

45

6

1

2

3

4

56

4

5

6

12

11

E2C

TLP521-4

7

8

109

E2D

TLP521-4

1

2

16

15

E3A

TLP521-4

3

4

14

13

E3B

TLP521-4

7

8

109

E3D

TLP521-4

5

6

12

11

E3C

TLP521-4

X671D-00-DL3


34/41


35/41

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1 2 3 4 5 6 7 8

A

B

C

D

87654321

D

C

B

A

Title

Number RevisionSize

A3

Date : 3 -Mar- 20 10 S hee t o f File: D:\Drawing\px100\PX1000 PX2000\X671D\X671D-00-DL1.DDBDrawn By:

K3

R7-2 1K

R8-1 5K

+24

GK1

+24

+5

161

D1A2004

XI5.20

5 6

D2C

74LS14

K4R7-3 1K

R8-2 5K

+24

GK1

+24

+5

2 15

D1B2004

XI8.1

89

D2D

74LS14

K5R7-4 1K

R8-3 5K

+24

GK1

+24

+5

3 14

D1C2004

XI5.14

STARTER

KEEP

BRAKE

START CAP

30uf

MAIN

AUX

COM

C8

2.2nf/300v

K3

R22

620r

V17

V16

BT136

R9

330

R10-11 K

R20

2/8W

R10-21 KR21

330

R6

2/8W

+5

+5

1011

D2E

74LS14

1213

D2F

74LS14

V13

V14

K4

K5

V155A

V10

V11

V12

AC40V

AC130VXI6.1 XI6.2XI6.3XI6.4

X671D-00-DL1

XI7.1

XI7.2

XI7.3

STARTEN1

STARTEN2

XI5.11

XI5.9

X671D-00-DL2

1 2

D3A

74LS14

R10-31K

R8-4 5K

+24

GK1

+5

134

D1D2004

AUTO

3 4

D3B

74LS14

R10-41K

R12-15K

+24

GK1

+5

125

D1E2004

XI5.16RAD

5 6

D3C

74LS14

R11-11K

R12-25 K

+24

GK1

+5

116

D1F2004

XI5.18

XI8.1

0

XI8.9

XI8.8

XI9.2

XI9.1

V18

R11-21K

R11-31K

R11-41 K

R13-11K

R13-21K

R13-31K

R14-1

5K

R14-2

5K

R14-3

5K

R14-4

5K

R15-1

5K

R15-2

5K

89

D3D

74LS14

1011

D3E

74LS14

1213

D3F

74LS14

1 2

D4A

74LS14

3 4

D4B

74LS14

5 6

D4C

74LS14

+5

+5

+5

+5

+5

+5

+24

+24

+24

+24

+24

+24

GK1

XI5.7

XI5.5

XI5.13

XI5.15

XI5.17

XI5.19

LSRTN

TABRTN

TOMORTN

SPRTN2

SPRTN1

OVRTN

XI18.1

XI18.2

XI18.3

XI13.3

XI13.2

XI13.1

XI13.4

1

23

D5A

74LS00

4

56

D5B

74LS00

89

10

D5C

74LS00

1112

13

D5D

74LS00

1112

13

D6D

74LS00

89

10

D6C

74LS00

4

56

D6B

74LS00

1

23

D6A

74LS00

89

D4D

74LS14

1011

D4E

74LS14

1213

D4F

74LS14

KLS

V19

KTAB

V20

KTOMO

V21

KDT1

V22

KDT2

V23

V24

LAMP

R 16 -1 1 K

R16-2

1K

R16-3

1K

R16-4

1K

R17-1

1K

R17-2

1K

GK1

GK1

GK1

GK1

GK1

+24

+24

+24

+24

+24

+24

+5

+5

+5

+5

+5

+5

HAND1S

HAND1S

HAND2S

HAND2S

HAND1S

161D7A

2004

2 15D7B

2004

3 14D7C

2004

134D7D

2004

125D7E

2004

116D7F

2004

R18-2

5K

R18-3

5K

R18-4

5K

R19-1

5K

R18-1

5K

+24

+24

+24

+24

+24

+24

LS

TAB

TOMO

SPOT2

SPOT1

KLS

KTAB

KTOMO1

KDT1 KDT2 KLAMP

+24

Interface Board(2)

XI11.1

XI11.2

XI11.3

XI11.4

XI12.1

XI12.2

XI12.3

XI12.4

XI14.4

XI14.3

XI14.2

XI14.1

XI15.4

XI15.3

XI15.2

XI15.1

XI10.3

XI10.2

XI10.1

X671D-00-DL2

X671D-00-DL2

XI5.1

XI5.12

XI5.10

XI5.8

XI5.6

X671D-00-DL2

XC2

X671D-00-DL10 X671D-00-DL2

XI8.6

XI8.7

XI8.2

HAND1S

HAND2S

P35

AC220V

C90.1uf

C100.1uf

C110.1uf

+5

XI10.4

XI16.1

XI16.4

XI16.3

XI16.2

XI5.4

BUZZER

V30+5

LFC

1

2D8A

74LS14

34

D8B 74LS14

12

13

D8F74LS14

R23-31K

R23-11K

R24-21K

+5

out +5

TXD

X

I8.5

X

I17.3

X

I17.4

X

I8.4

RXD

X

I17.2

X

I17.2

out

X671D-00-DL2

SERIAL PORT

GK1

XI18.4

out

HANDS1 12 7

8E1A

TLP521-2

12 7

8E2A

TLP521-2

34 5

6E2B

TLP521-2

34 5

6E4B

TLP521-2

12 7

8E4A

TLP521-2

12 7

8E5A

TLP521-2

34 5

6E5B

TLP521-2

34 5

6E9B

TLP521-2

12 7

8E9A

TLP521-2

34 5

6E10B

TLP521-2

12 7

8E10A

TLP521-2

12 7

8E11A

TLP521-2

12 7

8E3A

TLP521-2

34 5

6E3B

TLP521-2

3

4 5

6E6B

TLP521-2

12 7

8E7A

TLP521-2

34 5

6E7B

TLP521-2

12 7

8E8A

TLP521-2

34 5

6E8B

TLP521-2

12 7

8E6A

TLP521-2

34 5

6E12B

TLP521-2

12 7

8E12A

TLP521-2

Interface Board Diagram

X671D-00-DL5


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A3


C30 100nf

V1

V2

R17 5k

R18 5k R06 50k

2-15

1-2 2+ 161+

1

RT6

GND

7

4

OUTC13

CA8

CB11

COMP3

EA

10

EB

9

CT5

VREF14

VCC

12

D1TL494

+15

12 7

8

E1ATLP52

C17100nf

C19100nf

+15

K2.1

12

13

14

N1DTL084

R445k

12

1314

N2DTL084

R14 10k

C1210nf

C151nf

R2320K

R16 10k

R125k

5

67

N3BTL084

R1-35k

R9 1.5k

R19 10K

V9C4100nf

R20 10k

C5100nf

+15

V3

R03 50k

9

108

N1CTL084

V10

5v

R435k

1314

12

N3DTL084

9

108

N3CTL084

R2120k

R24 10k

R2-210k

C71nf

C6 1nf

C9100nf

C11100nf

C10100nf

R1-2

5k

C161nf

+15

2

3

1

N3ATL084

R045

k

C14100nf

R6-1

24k

R05 50K

+15

V11

R2-3

10k

R3 51k

C32100nf

1

23

D2A4011

R2-1

10k

+15

R1-15k

R4 24K

R5 51K

R6-3

24KR7

3K

R8 51K

R015k

C20.1U

2

31

N2ATL084

6

57

N2BTL084 9

108

N2CTL084

R10 510k

R11 10K

R2220K

R1310K

R02 10KC3 1UF

+15

K2.2 K1K2

C110nf

C33100nf

XC8.4

XC8.3

XC8.2

XC8.1 DAKV

kV Control Diagram

KVEN

X671D-00-DL2

ADKV

XA2 HKV

X671D-00-DL2

KV+

KV-

X671D-0

0-D

L1

X671D-0 0-DL2

X671D

-00-DL9

IBS-

IBS+ XA3.1

XA3.2

XA6.1

XA1.4

XA1.2

XA1.3

XA1.1

XA6.2

XA2.2

XA2.3

XA2.1

XA2.4

XA6.6

XA6.7

XA6.8

XA7.3

XA7.4

XA6.3

XA4.5

XA6.4

XA4.4

XA4.3

XA4.1

XA4.6

XA4.2

XA5.4

XA5.5

XA5.3

XA5.1

XA5.6

XA5.2

XA6.5

XC8.6

XC8.7

XC8.8

X671D-00-DL5

KVC XC8.5X671D-00-DL2

F AULT2 F AULT1 THEREARETWOIPMTRIGBOARDS

XT2TOX671D-0

0-DL8

IBSKV

IBSSET

KVSET

KV+

KV-

KV-SAMP

HKV

TP1TP2

+15

-15

+5

R25-151k

R45 20k

C8 10nf

V4

R47

100k

R48

100k

X671D-00-DL6

CCD


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A3


R30 51k

V13

V14

R2710K

R285K

R07 50k

2-15

1-2

2+16

1+1

RT6

GND

7

4

OUTC13

CA8

CB11

COMP3

EA

10

EB

9

CT5

VREF14

VCC

12

D3TL494

+15

C204.7nf

R25-3 5

1K

C211nf

C22100nf

R6-2

24k

R08 50k

V5

V6

4

3

5 N5C4066

1 2

13

N5A4066

+15

+15R31-4

3k

R31-3

3k

R34 1k

3

4 5

6

E2BTLP52

12 7

8

E2ATLP52

C291uf

C25 1uf

C24 1uf6

57

N1BTL084

K1.2

K1.1

R26 10k

R325k

R15 10k R42 10k

R40 10k

R41 10k

R35 10k

R2-410k

R36800R

R38800R

R378R

R398R

C281nf

C271nf

C26 100nf

R29 5k2

31

N1ATL084

R33 5.1K

5 6

4

D2B4011

C181nf

C231nf

C3110nf

X671D-00-DL10

X671D-00-DL2DAMA

mA Control Diagram

MACX671D-00-DL2

TO2KWC2

ADMAX671D-00-DL9

XF4

MA-

MA+

MAL

MAR

MASX67D-00-DL2

X671D-0

0-D

L10XF2

XC8.9

XC8.10

XC8.11

XC8.12

XA6.11

XA8.4

XA8.1

XA8.4

XA8.2

XA1.3

XA1.2

XA6.10

XA6.9

XA7.1

XA7.2

XA6.12

TP4

TP3

MA-SETC13 10nf

V12

R46

24k

13

1214

N4DTL084

MA SAMP

FILA SAMP

V7

V8

X671D-00-DL7


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A3


+15

+15

V11A/50V

V2

1A/50V

T1

PBT-0

510

C1100uf

C2100uf

Vin1

GND

2

+15V3

V3MC7815T

Vin1

GND

2

+15V3

V4MC7815T

C310uf

C410uf

C50.1uf

C60.1uf

23

8

65

E16N137

23

8

65

E26N137

R1

1k

R21k

C70.1uf

C80.1uf

V5

V6

+15

R3-3 3K

R3-2 3K

R3-1 3k+15

12

43

E3TLP521

12

43

E4TLP521

X671D-0

0-D

L1

12

34

5

12

34

5

SPR(+5V)

CP1(TRIG)VPC(0V)

VP1(+15V)

FPO(FAULT2)

FNO(FAULT1)

CN1(TRIG)VNC(0V)

SNR(+5V)VN1(+15V)

X671D-00-DL9MODULI

XT2

1

2

3

XT2.4

XT2.5

KVR

KVL

MODULIX671D-00-DL9

IPM Drive Diagram

AC15V

AC15V

X671D-00-DL6

X671D-00-DL6

X671D-00-DL6

XT1.1

XT1.2

X671D-00-DL8


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A3


RM11m/2w

CM52uf

CM42uf

R210m/1w*10

R1

10m/1w*10

V4V3

V2V1

T3

T2

T1

C4C3

C2C1

LM1200uh

C1

E1C2

E2

VP1

FPO

SPRCP1VPC

VN1

FNO

SNRCN1VCN

MODULI

C1

E1C2

E2

VP1

FPO

SPRCP1VPC

VN1

FNO

SNRCN1VNC

MODULII

LM2

CM33.6uf

54321

54321

54321

54321

X671D-00-DL8

X671D-00-DL8

X671D-00-DL10

High Voltage Gasoline Tank

FL2COMFL1

IV2 IV1

MA-

MA+

KV-

KV+

Main Inverter Diagram

V+(540V)

V-(0V)

X671D-00-DL1

X671D-00-DL7

X671D-00-DL7

X671D-00-DL6

X671D00-DL7

CM62uf

TERMINALBOARD III

T4

X671D-00-DL9

XF3 XF5


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A3


C933nf

C1033nf

R110r/1r

K2

K1

V18

TIP122

V17

C71uf C8

100pf

R20

10k

R19

10k

R2112k

R18

5.1

k

V13

V15V14

V12

R3

10r

R4

10r

R510r

R610r

C210nf

C310nf

C510nf

C410nf

V19

R22

1.5

K

C11

1uf

C61000UF

V16

2A

V9 TIP122

V20 TIP122

R26

470

R24 10K

R23

470

T2

T3

C11000uf

R7

1R/8W

V17A

V3

V5

V4

V6

R1540R

R1440R

R1740R

R1640R

R81R/8w

T1

R23k/2w

V2

R10 360r

R13 360r

R12 360r

R11 360r

XF5

AC40V

4

21

X671D-0

0-D

L9

X671D-00-DL1

X671D-0

0-D

L7

X671D-00-DL1

723

1210

11

4

13

7

5

6

SMALLFOCUS

LARGEFOCUS

XF2

0V

XA8

XF1

XF6

XF3

XF4

F OFENCLOSE

G D

S

G D

S

G D

S

DG

S

FL1

COM

FL2

TERMI NAL

BOARD I I I

AC15V

15V

Filament Board Diagram

XF4

1

2

3

4

1

2

3

XA7

XI9

X671D-00-DL7

X671D-00-DL5

1

2

3

12

4

1

2

1

2

1

2

3

4

0V1

R9 10K

C13100uf

C12100uf

R2510r/1r

P1

P2

P3

P4

V11

V7 V10

V8

N1

R27220/1w

R28220/1w

C141000uf

X671D-00-DL10


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B

Date: 3-Mar-2010 Sheet of File: D:\Drawing\px100\PX1000 PX2000\X671D\X671D-00-DL1.DDBDrawn B y:

1

2

2

3

4

5

6

7

1

2

3

4

V1

1

2

3

4

V2

C1

C2

C3

C4

+15V

-15V

SW-L

SW-N

MODULI-C1

MODULI-E2

R1

490K

R210K

R310K U1

C5

+15V

C6

-15V

R410K

R510K

R6490K

R710K

R8

10KR9

10K

R10

10K

C7

U1

10

98

R11

10k

R1210k

R13

5k +15V

R14

470

U112

1314

R15470

+15V

R1610K

X19-2 24V

XI18-4

XI18-3

T1

T2

U15

6

7

12

XS3

12

XS1

Vin1

GND

2

+15V3

V1UA7815

Vin1

GND

2

+15V3

V2UA7815

123456

XS2

D2

D1

3

21

11

1

2

8

7

E1ATLP52

X671D-00-DL9

Switch PowerX671D-00-DL1

X671D-00-DL5

X671D-00-DL11

Energy Inspect Diagram

2.X671D English Gene Alta Frec X671D

Documents

Transcript of 2.X671D English Gene Alta Frec X671D