Добрый день уважаемые участники форума. Есть аппарат Dolev-800. Есть с ним проблема: стал растягивать изображение и делать его полосатым. Кто может подсказать - это проблемы с электроникой или механикой? Внутренний тест один сделал нормально, черный прямоугольник без полос, все остальные тесты и файлы, которые на него отправляются делает полосами и разтянутыми. Фото прилагаю. Пробовали подкидывать платы с другого аппарата (нам высылали), ничего не помогло.
Dolev-800 растягивает изображение.
- Автор темы SergeyF
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SattvaService
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Основні функції плати CRI:
Service motion
Exposure carriage motion and control at resolutions between 60 and 200
Stop spirals
Це все якраз відноситься до руху каретки (carriage). По напрямку де спотворюється зображення.
The board controls the Stepper Driver, and the Stepper Driver in turn determines the speed of the lead screw movement... Плата CRI управляє рухом каретки. Дивіться будь ласка внизу ще детальний опис.
Схоже... Ваша CRI дає імпульсів більше потрібного на кроковий двигун каретки - ось і розтягується зображення...
В першу чергу її бажано знайти для діагностики. Або, можливо, Вашу плату "підкинуть" у справний Dolev, для перевірки.
Наша ACRI (більш сучасна та швидка) Вам не підійде - потрібно шукати саме CRI 503D29069.
Вибачаюсь, може за якусь ту наполеглививість !
Доброго ранку!
===
Dolev 800 - Electronic System -
Standard Controller - CRI Board(503D29069)
Std. Controllr.
Figure 6-9. CRI Brd.
FCO 17248
FCO 15914
FCO 19649 - CRI Board
FCO19100 - Solving white stripes at "stop spiral"
Description
Line Control and Time Diagnostics
Adjustments
Replacement
Check
Description
Board Functions
PC Interface and NVM
Microcontroller and Peripherals
Microstep Clock Control
Theory of Operation
Board Functions
Service motion
Exposure carriage motion and control at resolutions between 60 and 200
Stop spirals
Storing machine parameters on the NVM
PC Interface and NVM
The interface offers PC control over the microbus for XILINX loading and the WCS. The NVM (E2PROM) is accessed only by the PC. The interface between the CPU and the 80196 controller consists of:
In buffer register
Out buffer register
In control register
Status buffer
Address decoder
Microcontroller and Peripherals
I/O control signals: shutter, detectors, etc.
CODE and DATA RAM
Address decoding
HSI for time measurement
HSO for full step service motion
Interrupt services
Microstep Clock Control
Microstep clock controls the motor movement while following its position. Running the motors by way of generating CLKS from the CLK generator, and division into variable values depending on the request. The purpose is to receive different speeds.
Microstep signal generation is performed by accumulation.
10 / 128 microsteps per step division (usually 125)
Sin, Cosine, polarity RAM
Up and Down counter
Amplitude control and adjustment
Sin, Cosine phase control and adjustmentTheory of Operation
The Continuous Resolution Indexer (CRI) (503D29069) board controls the shutter during film exposure. The board controls the Stepper Driver, and the Stepper Driver in turn determines the speed of the lead screw movement. The carriage speed differs for every resolution. The CRI works in microstep during exposure. Control of both the lead screw movement and the spinner speed is necessary.
The CRI drives a two phase stepper motor by way of the stepper driver.
Special diagnostic mode (service) movements are possible, as is "Stop and Wait" for data procedures. The motion can be in full or half step, up to 10,000 S/sec.
The possible exposure spiral movements are in microstep mode 80-600 S/SRC. The achievable exposure resolutions are from 28-200 dots/mm.
Three frequency sources determine the spiral mode:
Internal clock
External clock
Spinner encoder clock
The exposure accuracy is 1 um/line, non-accumalative.
The CRI is controlled by the CPU. The CPU has access to all of the data I/O space for diagnostics.
The CRI is based on an Intel 80196 controller. The board has programmable (software configured) gate array. There is an I2C No.2 serial bus.
Line Control and Time Diagnostics
PLL
Expose clock generator
Time measurements of digital signals (for Diagnostics and pre-exposure checks)
The encoder phase detector synchronizes stepper start motion to the spinner signals. It also counts the encoder clock starts from the index.
The block generates control signals to the motor drivers.
Adjustments
Service motion
Exposure carriage motion and control at resolutions between 60 and 200
Stop spirals
Це все якраз відноситься до руху каретки (carriage). По напрямку де спотворюється зображення.
The board controls the Stepper Driver, and the Stepper Driver in turn determines the speed of the lead screw movement... Плата CRI управляє рухом каретки. Дивіться будь ласка внизу ще детальний опис.
Схоже... Ваша CRI дає імпульсів більше потрібного на кроковий двигун каретки - ось і розтягується зображення...
В першу чергу її бажано знайти для діагностики. Або, можливо, Вашу плату "підкинуть" у справний Dolev, для перевірки.
Наша ACRI (більш сучасна та швидка) Вам не підійде - потрібно шукати саме CRI 503D29069.
Вибачаюсь, може за якусь ту наполеглививість !
Доброго ранку!
===
Dolev 800 - Electronic System -
Standard Controller - CRI Board(503D29069)
Std. Controllr.
Figure 6-9. CRI Brd.
FCO 17248
FCO 15914
FCO 19649 - CRI Board
FCO19100 - Solving white stripes at "stop spiral"
Description
Line Control and Time Diagnostics
Adjustments
Replacement
Check
Description
Board Functions
PC Interface and NVM
Microcontroller and Peripherals
Microstep Clock Control
Theory of Operation
Board Functions
Service motion
Exposure carriage motion and control at resolutions between 60 and 200
Stop spirals
Storing machine parameters on the NVM
PC Interface and NVM
The interface offers PC control over the microbus for XILINX loading and the WCS. The NVM (E2PROM) is accessed only by the PC. The interface between the CPU and the 80196 controller consists of:
In buffer register
Out buffer register
In control register
Status buffer
Address decoder
Microcontroller and Peripherals
I/O control signals: shutter, detectors, etc.
CODE and DATA RAM
Address decoding
HSI for time measurement
HSO for full step service motion
Interrupt services
Microstep Clock Control
Microstep clock controls the motor movement while following its position. Running the motors by way of generating CLKS from the CLK generator, and division into variable values depending on the request. The purpose is to receive different speeds.
Microstep signal generation is performed by accumulation.
10 / 128 microsteps per step division (usually 125)
Sin, Cosine, polarity RAM
Up and Down counter
Amplitude control and adjustment
Sin, Cosine phase control and adjustmentTheory of Operation
The Continuous Resolution Indexer (CRI) (503D29069) board controls the shutter during film exposure. The board controls the Stepper Driver, and the Stepper Driver in turn determines the speed of the lead screw movement. The carriage speed differs for every resolution. The CRI works in microstep during exposure. Control of both the lead screw movement and the spinner speed is necessary.
The CRI drives a two phase stepper motor by way of the stepper driver.
Special diagnostic mode (service) movements are possible, as is "Stop and Wait" for data procedures. The motion can be in full or half step, up to 10,000 S/sec.
The possible exposure spiral movements are in microstep mode 80-600 S/SRC. The achievable exposure resolutions are from 28-200 dots/mm.
Three frequency sources determine the spiral mode:
Internal clock
External clock
Spinner encoder clock
The exposure accuracy is 1 um/line, non-accumalative.
The CRI is controlled by the CPU. The CPU has access to all of the data I/O space for diagnostics.
The CRI is based on an Intel 80196 controller. The board has programmable (software configured) gate array. There is an I2C No.2 serial bus.
Line Control and Time Diagnostics
PLL
Expose clock generator
Time measurements of digital signals (for Diagnostics and pre-exposure checks)
The encoder phase detector synchronizes stepper start motion to the spinner signals. It also counts the encoder clock starts from the index.
The block generates control signals to the motor drivers.
Adjustments
TS301 | 1 TCD¬ 2 U2PCRDY 3 PC2URDY 4 PLL INPUT 5 FEEDBCK 6 PLL CK 2 7 uSTEP CLK 8 ACC REQUEST 9 STOP CONDITION 10 MOVING | |
TS401 | 1 ENCODER INDEX 2 ENCODER CK 3 STOP_SPRL¬ 4 MULTSIN 5 MULTCOS 6 INDEX 7 DIV PLL CK | |
Jumper W901 | Disconnects oscillator of ucontroller. | |
Jumper TS602 | Interrupt request to PC. | |
Reset switch SW701 | Software status | |
Potentiometers: | Home position End position | P102 P101 |
Я точно сказать не могу, не спец в этом. Человек который "ковырял" Долев сейчас в отпуске, будет в понедельник. Тогда и распрошу у него.