설명
Temescal BJD-1800 Thermal Vacuum Deposition Evaporator. 2 sources. Low Profile Vacuum Deposition System Temescal’s Model BJD-1800 is a flexible deposition system that accepts a multitude of accessories to meet almost any requirement. It features the same design criteria of pumping efficiency and operator convenience that have made Temescal systems leaders in the vacuum coating industry. The popular low profile appearance is achieved by the unique offset pumping design, which places the substrate holder at a convenient height and the pumping port precisely where it is most effective-between the evaporation source and the substrates. (1) Designed for operator convenience The substrate chamber is located 46 inches from the ground, considerably lower than conventional bell jar systems. For the operator, loading and unloading substrates at a convenient height is a real advantage . The 18-inch-diameter chamber dome is hinged and spring loaded for touch-release opening and can be raised to a preset hold position as well. (2) Designed for convenient maintenance The offset pumping port, hinged front door panel, and swing-out source tray are the maintenance features admired in the BJD-1800. The offset pumping design greatly reduces the possibility of broken substrates, evaporating materials, and other debris from finding their way into the pumping module. The result is fewer unscheduled machine downtimes . The hinged front door panel opens to the pumping system and the evaporation chamber. A built-in jackscrew lowers the source tray which can then be swung out for cleaning and maintenance. Access to the bellows-sealed high vacuum valve and other pumping system components is simple and direct. Designed for Pumping Efficiency The combination of high quality pumping components and an offset pumping port produces faster net speeds at the entry to the source chamber than major conventional bell jar systems. The pumping port into the high vacuum chamber measures a full 6 by 12 inches and is located where it is most effective-between the substrates and the evaporation source. This reduces the distance the gases must travel and therefore results in greater pumping efficiency, purer films, and high yields. (1) Pumping performance Equipped with the standard mechanical and cryopumps, the typical 18-inch-diameter BJD-1800 can achieve pump down from atmosphere to 3.1 x10-7 torr in 10 minutes and to 1.2 x10-7 torr in 30 minutes. The ultimate vacuum is in the 10-8 torr range, to which each BJD-1800 is tested. We can provide 1 typical pump-down curve. (2) High vacuum pumping The standard system is equipped with an 8-inch cryopump with a water-cooled compressor and has an ultimate vacuum in the 10-8 torr range. (3) BJD-1800 vacuum system * Low profile allows convenient loading and unloading of substrates * Hinged and spring loaded chamber dome for easy opening and closing * Pumping plenum * Stainless steel bellows * Poppet valve * Offset pumping port reduces distance gases must travel and increases pumping efficiency * Cryopump * Optionally, the BJD-1800 can be equipped with a diffusion pump or a turbomolecular pump for reactive evaporations. (4) Bellows-sealed high vacuum valve A 7.75-inch i.d. stainless steel bellows sealed high vacuum valve with electropneumatic actuator isolates the cryopump from the evaporation chamber. The poppet valve design eliminates problems encountered with butterfly high vacuum valves. (5) 30 cfm mechanical pump The standard BJ D-1800 utilizes a 30 cfm (50.5 m3h-1) two-stage mechanical pump with a right angle trap to perform roughing and cryo-roughing service at the rate of 845 liters/minute. It is mounted on the floor behind the cabinet, connected to it with KF style joints and a 20-inch flexible stainless steel bellows line, but isolated from the main pumping chamber to eliminate transmission of pump vibration. Other size mechanical pumps can also be provided . (6) Roughing, Cryo-roughing, vent valves, and manifold The roughing valve is Edwards ½-inch Model 2030 stainless steel to maintain the high vacuum integrity of the system. The cryo-roughing valve is Edwards 1/2-inch Model 2130 stainless steel, as is the system vent valve. All are electro-pneumentically actuated and incorporate a replaceable bellows. All vacuum manifolding is 1/2-inch stainless steel. T he manifolding includes a port in the fore-line for leak detection. BJD-1800 Vacuum Chamber and Instrumentation (1) Vacuum chamber The vacuum chamber is available with a 9-inch-high, 18-inch-diametcr (or, optionally, a 20-inch-diameter) stainless steel bell-jar-shaped lid. A Viton o-ring seals this lid. A spring-assisted hinge gives fingertip control in raising and lowering it, and a positive stop is incorporated to prevent it from tilting back too far. A variety of planetary fixtures is available. The BJ D-1800 can accommodate the TP-8 angle-of-incidence fixture for lift-off processes or the HSP (highspeed planetary) for step coverage. Also available is the TP-2 flat planetary for optical processes. Custom substrate fixtures arc available upon request. The source is mounted in an 18-inchhigh by IS-inch-diameter all stainless steel well. The tray on which the evaporation sources arc mounted is an 18-inch-diameter flat plate. The source tray seals against the bottom of the vacuum chamber with a Viton o-ring and can be raised and lowered with a built-in jackscrew. When lowered, the tray swings out 90° to the front of the system for easy access. A wide-angle shut1ered viewing port is located in the front of the vacuum chamber. The valve plenum chamber measures 12 inches wide by 6 inches high by 14 inches deep . (2) Instrumentation A VersaVac® 5 thermocouple/ ionization gauge controller provides accurate measurement of pressure in the BJD-1800. T he location of the ionization gauge is at substrate level 10 allow accurate measurement at the point where operating vacuum is the critical factor. (3) Vacuum map and controls The arrangement of the system’s valves and pumps is indicated on a vacuum map on the vacuum control cabinet. Lights provide the operator with complete information on the system’s status at all times. Two modes of operation for valve sequencing arc included: fully automatic or manual. In the automatic mode , the push of a button will pump clown the chamber from atmospheric pressure to high vacuum; automatic valve sequencing is completely interlocked to protect the pumping system. In the manual mode, the valves can be sequenced by throwing a switch for each valve. No interlocks are active in the manual mode. BJD-1800 Options and Accessories Full utility of the BJD-1800 is found in the wide selection of accessories that tailor each system to the purchaser’s requirements. Whether for research and development or for production, the options on these pages assure that an optimum configuration can be specified. Electronic assemblies feature top-grade components and rigorous performance standards. Mechanical assemblies and fittings employ special materials such as 304 stainless steel, OHFC copper, Viton and Kovar, together with strict tolerances to assure high vacuum integrity. (1) Electron beam sweep controller -Temescal programmable Sweep Controller Electron beam sweep controllers are recommended for the evaporation of many dielectric or subliming materials. The sweep controller applies user-defined preprogrammed current to the lateral and longitudinal focus coils of an electron beam source which acts to deflect or “sweep” the beam over the entire top surface of the evaporant. This beam sweep action provides a more uniform evaporation of the source material than a stationary beam and will help to eliminate tunneling of the source material if it sublimes. (2) Film deposition controller – IC 6000 multiple thin film deposition controller For precise measurement of deposition thickness and efficient repeatability control, the BJ D-1 00 can be equipped with a film deposition controller to control rate and thickness for up to six thin films. Measurement and control updates arc every 0.20 seconds. Optional plug-in source sensor modules permit control of multiple sources. Electron beam power supply-Simba 2 electron beam power supply and optional control console The Temescal model Simba 2 electron beam power supply provides 15 kw of constant high voltage over user-selectable ranges of – 4 to – 7 kV and – 7 to – 10 kV. The Simba supply can power up to three electron beam sources simultaneously. (3) Diffusion pump The BJD-1800 is available with an optional 2100 liter/second 6-inch high-speed diffusion pump with an ultimate vacuum in the 10-8 torr range. BJD-1800 Options and Accessories (4) Electron beam sources STIH-270-2M electron beam source -A single or multi-crucible electron beam source, or both, can be mounted in the BJD-1800 for multi-material simultaneous or sequential evaporations. Filament evaporation is also available. Temescal is the world leader in electron beam technology and a number of single and multiple sources including the Gemini® dual crucible source and Trigon® triple crucible source arc available to meet specific requirements. All of Temescal’s electron beam sources incorporate 270° beam deflection to increase filament life, permanent primary magnets to maintain the electron beam on the source, and built-in lateral and longitudinal deflection coils to sweep the electron beam. (5) Substrate holders – – -TP-8 substrate fixture and source covered by shutter . The TP-8 dome substrate holder is offered for lift-off processes. The dome can handle 2-inch (50 mm), 3-inch (75 mm), or 4-inch (100 mm)wafers, or, for BJD box configurations, 5-inch (125 mm) wafers. The dome is designed so that the center of each wafer is at a normal angle-of-incidence at all times . For step coverage the BJ D-1800 can be fitted with the backside-loading HSP planetary. Also available is the flat TP-2 substrate holder . Special fixtures arc available upon request. (6) Substrate heaters—HA-2 substrate heater Either 2 kW or 4 kW of quartz lamp substrate heaters can be installed in the BJ D-1800 along with a heater power supply. (7) Automatic process control Fully automatic process control can be incorporated into the BJD-1800. An operator can then load the substrates into the system, push the start button, and allow the system to function automatically throughout the entire process. To assist the operator, or where precise steps must be repeatable from run to run, automatic process control should be an important consideration. (8) Box shaped product chamber The BJD-1800 can also be configured with a box-shaped product chamber for processes requiring larger substrate areas. Specifications (1) Construction All internal chamber surfaces arc chemically polished 304 stainless steel. Shields arc honed to improve adhesion of evaporant. (2) Vacuum chamber * Steel bell jar: 18-inch-diamctcr x 9-inch-high ( 457 mm X 229 mm). Optional 20-inch-diameter (508 mm) size available. Water cooled. Designed for waist-high, 46-inch (1168 mm), substrate loading and unloading. Hinged dome with spring-assisted counterbalance for case of operation. * Source well: 18-inch-diamctcr x 18-inch-high (457 mm x 457 mm). Water cooled. 12-inch-wide x 6-inch-high x 14-inch deep (305 mm x 152 mm x 356 mm) valve plenum chamber. (3) Source tray 18-inch-diameter (457 mm) flat plate. Manual handwheel-operated jackscrew mechanism for raising and lowering the source tray. When lowered, the tray swings out 90° for ease of access. (4) Vacuum pumps 8-inch (203 mm) cryopump with an ultimate vacuum in the 10-8 torr range. 30 cfm (50.5 m3h-1) 845 liter/minute dual-stage mechanical pump for roughing and backing. Floor mounted and isolated from the main chamber to eliminate vibration. (5) Vacuum valves 775-inch ( 197 mm) i.d. bellows-scaled electropneumatic high vacuum valve. Poppet style design eliminates o-ring scuffing. 11/2-inch (38 mm) electropneumatic stainless steel angle roughing valve. 5/8-inch ( 15 mm) electropneumatic stainless steel inline cryo-roughing valve. 5/8-inch ( 15 mm) electropneumatic stainless steel inline vent valve. (6) Vacuum gauge controller Dual ionization/triple thermocouple gauge controller. Alternate gauge controller available. (7) Automatic valve sequencer Automatic valve sequencer pumps down system at push of button. Vacuum map provides visual display of valve sequence, and lights indicate status of valves and vacuum pumps. (8) Electronics cabinet Floor-mounted cabinet, 24-inch-wide x 27-inch-deep x 72-inch-high (610 mm x 686 mm x 1829 mm) overall dimensions, including casters. Counter-mounted cabinet available also, dependent upon which options arc selected: 24-inch-widc x 27-inch-dcep x 41.5-inch high (610 mm x 686 mm x 1054 mm) overall dimensions. (9) Vacuum cabinet 46-inch-high, including casters, x 56-inch wide x 34-inch-deep ( 1168 mm x 1422 mm x 864 mm), steel sheet metal construction. Viewport and roughing line add approximately 9 inches (229 mm) to depth dimension. Interlocked hinged front door panel exposes pumping system and evaporation chamber for case of access. (10) Water system Stainless steel manifold with 3/4 inch (19 mm) NPT female pipe tap connections on cabinet rear for “water in” and water out”. (11) Air system 1/4 inch (6 mm) NPT female pipe tap connection on rear of cabinet . (12) Performance Pump-down time: Atmosphere to 3.1X10-7 torr in 10 minutes or less. Atmosphere to 1.2X10-7 torr in 30 minutes or less with standard pumping system. Typical operating vacuum: 10-6 torr range. Ultimate vacuum: 10-8 torr range. Typical operating cycle: 30 to 35 minutes for 10,000 A of aluminum with substrate heating 10 250°C. Coating uniformity: ± 5% with Model HSP-18 high speed planetary and with Model TP-8 substrate fixture . Tighter tolerances possible with custom shadow masking on TP-8. (13) Utility requirements—Optional accessory utility requirements not included Water : Filtered 3 gpm at minimum 50 psig inlet pressure at 60° to 80° F (0.95 l/m, 3.5kg/cm2, 16° to 27° C). Compressed air: 5 cfm at 60 to 125 psig inlet pressure, filtered and dried ( 142 l/m, 4.2 to 8.8 kg/cm2 ). Power: 208 V, 3 phase, 30 A, 60 Hz, 5 wire wye connection with ground and neutral. Optional voltages available. Ambient temperature: 80° F ± 10°(26.8°c ± 5.5o) . Humidity: 50% maximum. System weight: Approximately 980 lb(445 kg).환경 설정
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Thermal Evaporators
마지막 검증일: 19일 전
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FERROTEC / TEMESCAL
BJD 1800
카테고리
Thermal Evaporators
마지막 검증일: 19일 전
주요 품목 세부 정보
조건:
Refurbished
작동 상태:
알 수 없음
제품 ID:
138627
웨이퍼 사이즈:
알 수 없음
빈티지:
알 수 없음
Logistics Support
Available
Transaction Insured by Moov
Available
Refurbishment Services
Available
설명
Temescal BJD-1800 Thermal Vacuum Deposition Evaporator. 2 sources. Low Profile Vacuum Deposition System Temescal’s Model BJD-1800 is a flexible deposition system that accepts a multitude of accessories to meet almost any requirement. It features the same design criteria of pumping efficiency and operator convenience that have made Temescal systems leaders in the vacuum coating industry. The popular low profile appearance is achieved by the unique offset pumping design, which places the substrate holder at a convenient height and the pumping port precisely where it is most effective-between the evaporation source and the substrates. (1) Designed for operator convenience The substrate chamber is located 46 inches from the ground, considerably lower than conventional bell jar systems. For the operator, loading and unloading substrates at a convenient height is a real advantage . The 18-inch-diameter chamber dome is hinged and spring loaded for touch-release opening and can be raised to a preset hold position as well. (2) Designed for convenient maintenance The offset pumping port, hinged front door panel, and swing-out source tray are the maintenance features admired in the BJD-1800. The offset pumping design greatly reduces the possibility of broken substrates, evaporating materials, and other debris from finding their way into the pumping module. The result is fewer unscheduled machine downtimes . The hinged front door panel opens to the pumping system and the evaporation chamber. A built-in jackscrew lowers the source tray which can then be swung out for cleaning and maintenance. Access to the bellows-sealed high vacuum valve and other pumping system components is simple and direct. Designed for Pumping Efficiency The combination of high quality pumping components and an offset pumping port produces faster net speeds at the entry to the source chamber than major conventional bell jar systems. The pumping port into the high vacuum chamber measures a full 6 by 12 inches and is located where it is most effective-between the substrates and the evaporation source. This reduces the distance the gases must travel and therefore results in greater pumping efficiency, purer films, and high yields. (1) Pumping performance Equipped with the standard mechanical and cryopumps, the typical 18-inch-diameter BJD-1800 can achieve pump down from atmosphere to 3.1 x10-7 torr in 10 minutes and to 1.2 x10-7 torr in 30 minutes. The ultimate vacuum is in the 10-8 torr range, to which each BJD-1800 is tested. We can provide 1 typical pump-down curve. (2) High vacuum pumping The standard system is equipped with an 8-inch cryopump with a water-cooled compressor and has an ultimate vacuum in the 10-8 torr range. (3) BJD-1800 vacuum system * Low profile allows convenient loading and unloading of substrates * Hinged and spring loaded chamber dome for easy opening and closing * Pumping plenum * Stainless steel bellows * Poppet valve * Offset pumping port reduces distance gases must travel and increases pumping efficiency * Cryopump * Optionally, the BJD-1800 can be equipped with a diffusion pump or a turbomolecular pump for reactive evaporations. (4) Bellows-sealed high vacuum valve A 7.75-inch i.d. stainless steel bellows sealed high vacuum valve with electropneumatic actuator isolates the cryopump from the evaporation chamber. The poppet valve design eliminates problems encountered with butterfly high vacuum valves. (5) 30 cfm mechanical pump The standard BJ D-1800 utilizes a 30 cfm (50.5 m3h-1) two-stage mechanical pump with a right angle trap to perform roughing and cryo-roughing service at the rate of 845 liters/minute. It is mounted on the floor behind the cabinet, connected to it with KF style joints and a 20-inch flexible stainless steel bellows line, but isolated from the main pumping chamber to eliminate transmission of pump vibration. Other size mechanical pumps can also be provided . (6) Roughing, Cryo-roughing, vent valves, and manifold The roughing valve is Edwards ½-inch Model 2030 stainless steel to maintain the high vacuum integrity of the system. The cryo-roughing valve is Edwards 1/2-inch Model 2130 stainless steel, as is the system vent valve. All are electro-pneumentically actuated and incorporate a replaceable bellows. All vacuum manifolding is 1/2-inch stainless steel. T he manifolding includes a port in the fore-line for leak detection. BJD-1800 Vacuum Chamber and Instrumentation (1) Vacuum chamber The vacuum chamber is available with a 9-inch-high, 18-inch-diametcr (or, optionally, a 20-inch-diameter) stainless steel bell-jar-shaped lid. A Viton o-ring seals this lid. A spring-assisted hinge gives fingertip control in raising and lowering it, and a positive stop is incorporated to prevent it from tilting back too far. A variety of planetary fixtures is available. The BJ D-1800 can accommodate the TP-8 angle-of-incidence fixture for lift-off processes or the HSP (highspeed planetary) for step coverage. Also available is the TP-2 flat planetary for optical processes. Custom substrate fixtures arc available upon request. The source is mounted in an 18-inchhigh by IS-inch-diameter all stainless steel well. The tray on which the evaporation sources arc mounted is an 18-inch-diameter flat plate. The source tray seals against the bottom of the vacuum chamber with a Viton o-ring and can be raised and lowered with a built-in jackscrew. When lowered, the tray swings out 90° to the front of the system for easy access. A wide-angle shut1ered viewing port is located in the front of the vacuum chamber. The valve plenum chamber measures 12 inches wide by 6 inches high by 14 inches deep . (2) Instrumentation A VersaVac® 5 thermocouple/ ionization gauge controller provides accurate measurement of pressure in the BJD-1800. T he location of the ionization gauge is at substrate level 10 allow accurate measurement at the point where operating vacuum is the critical factor. (3) Vacuum map and controls The arrangement of the system’s valves and pumps is indicated on a vacuum map on the vacuum control cabinet. Lights provide the operator with complete information on the system’s status at all times. Two modes of operation for valve sequencing arc included: fully automatic or manual. In the automatic mode , the push of a button will pump clown the chamber from atmospheric pressure to high vacuum; automatic valve sequencing is completely interlocked to protect the pumping system. In the manual mode, the valves can be sequenced by throwing a switch for each valve. No interlocks are active in the manual mode. BJD-1800 Options and Accessories Full utility of the BJD-1800 is found in the wide selection of accessories that tailor each system to the purchaser’s requirements. Whether for research and development or for production, the options on these pages assure that an optimum configuration can be specified. Electronic assemblies feature top-grade components and rigorous performance standards. Mechanical assemblies and fittings employ special materials such as 304 stainless steel, OHFC copper, Viton and Kovar, together with strict tolerances to assure high vacuum integrity. (1) Electron beam sweep controller -Temescal programmable Sweep Controller Electron beam sweep controllers are recommended for the evaporation of many dielectric or subliming materials. The sweep controller applies user-defined preprogrammed current to the lateral and longitudinal focus coils of an electron beam source which acts to deflect or “sweep” the beam over the entire top surface of the evaporant. This beam sweep action provides a more uniform evaporation of the source material than a stationary beam and will help to eliminate tunneling of the source material if it sublimes. (2) Film deposition controller – IC 6000 multiple thin film deposition controller For precise measurement of deposition thickness and efficient repeatability control, the BJ D-1 00 can be equipped with a film deposition controller to control rate and thickness for up to six thin films. Measurement and control updates arc every 0.20 seconds. Optional plug-in source sensor modules permit control of multiple sources. Electron beam power supply-Simba 2 electron beam power supply and optional control console The Temescal model Simba 2 electron beam power supply provides 15 kw of constant high voltage over user-selectable ranges of – 4 to – 7 kV and – 7 to – 10 kV. The Simba supply can power up to three electron beam sources simultaneously. (3) Diffusion pump The BJD-1800 is available with an optional 2100 liter/second 6-inch high-speed diffusion pump with an ultimate vacuum in the 10-8 torr range. BJD-1800 Options and Accessories (4) Electron beam sources STIH-270-2M electron beam source -A single or multi-crucible electron beam source, or both, can be mounted in the BJD-1800 for multi-material simultaneous or sequential evaporations. Filament evaporation is also available. Temescal is the world leader in electron beam technology and a number of single and multiple sources including the Gemini® dual crucible source and Trigon® triple crucible source arc available to meet specific requirements. All of Temescal’s electron beam sources incorporate 270° beam deflection to increase filament life, permanent primary magnets to maintain the electron beam on the source, and built-in lateral and longitudinal deflection coils to sweep the electron beam. (5) Substrate holders – – -TP-8 substrate fixture and source covered by shutter . The TP-8 dome substrate holder is offered for lift-off processes. The dome can handle 2-inch (50 mm), 3-inch (75 mm), or 4-inch (100 mm)wafers, or, for BJD box configurations, 5-inch (125 mm) wafers. The dome is designed so that the center of each wafer is at a normal angle-of-incidence at all times . For step coverage the BJ D-1800 can be fitted with the backside-loading HSP planetary. Also available is the flat TP-2 substrate holder . Special fixtures arc available upon request. (6) Substrate heaters—HA-2 substrate heater Either 2 kW or 4 kW of quartz lamp substrate heaters can be installed in the BJ D-1800 along with a heater power supply. (7) Automatic process control Fully automatic process control can be incorporated into the BJD-1800. An operator can then load the substrates into the system, push the start button, and allow the system to function automatically throughout the entire process. To assist the operator, or where precise steps must be repeatable from run to run, automatic process control should be an important consideration. (8) Box shaped product chamber The BJD-1800 can also be configured with a box-shaped product chamber for processes requiring larger substrate areas. Specifications (1) Construction All internal chamber surfaces arc chemically polished 304 stainless steel. Shields arc honed to improve adhesion of evaporant. (2) Vacuum chamber * Steel bell jar: 18-inch-diamctcr x 9-inch-high ( 457 mm X 229 mm). Optional 20-inch-diameter (508 mm) size available. Water cooled. Designed for waist-high, 46-inch (1168 mm), substrate loading and unloading. Hinged dome with spring-assisted counterbalance for case of operation. * Source well: 18-inch-diamctcr x 18-inch-high (457 mm x 457 mm). Water cooled. 12-inch-wide x 6-inch-high x 14-inch deep (305 mm x 152 mm x 356 mm) valve plenum chamber. (3) Source tray 18-inch-diameter (457 mm) flat plate. Manual handwheel-operated jackscrew mechanism for raising and lowering the source tray. When lowered, the tray swings out 90° for ease of access. (4) Vacuum pumps 8-inch (203 mm) cryopump with an ultimate vacuum in the 10-8 torr range. 30 cfm (50.5 m3h-1) 845 liter/minute dual-stage mechanical pump for roughing and backing. Floor mounted and isolated from the main chamber to eliminate vibration. (5) Vacuum valves 775-inch ( 197 mm) i.d. bellows-scaled electropneumatic high vacuum valve. Poppet style design eliminates o-ring scuffing. 11/2-inch (38 mm) electropneumatic stainless steel angle roughing valve. 5/8-inch ( 15 mm) electropneumatic stainless steel inline cryo-roughing valve. 5/8-inch ( 15 mm) electropneumatic stainless steel inline vent valve. (6) Vacuum gauge controller Dual ionization/triple thermocouple gauge controller. Alternate gauge controller available. (7) Automatic valve sequencer Automatic valve sequencer pumps down system at push of button. Vacuum map provides visual display of valve sequence, and lights indicate status of valves and vacuum pumps. (8) Electronics cabinet Floor-mounted cabinet, 24-inch-wide x 27-inch-deep x 72-inch-high (610 mm x 686 mm x 1829 mm) overall dimensions, including casters. Counter-mounted cabinet available also, dependent upon which options arc selected: 24-inch-widc x 27-inch-dcep x 41.5-inch high (610 mm x 686 mm x 1054 mm) overall dimensions. (9) Vacuum cabinet 46-inch-high, including casters, x 56-inch wide x 34-inch-deep ( 1168 mm x 1422 mm x 864 mm), steel sheet metal construction. Viewport and roughing line add approximately 9 inches (229 mm) to depth dimension. Interlocked hinged front door panel exposes pumping system and evaporation chamber for case of access. (10) Water system Stainless steel manifold with 3/4 inch (19 mm) NPT female pipe tap connections on cabinet rear for “water in” and water out”. (11) Air system 1/4 inch (6 mm) NPT female pipe tap connection on rear of cabinet . (12) Performance Pump-down time: Atmosphere to 3.1X10-7 torr in 10 minutes or less. Atmosphere to 1.2X10-7 torr in 30 minutes or less with standard pumping system. Typical operating vacuum: 10-6 torr range. Ultimate vacuum: 10-8 torr range. Typical operating cycle: 30 to 35 minutes for 10,000 A of aluminum with substrate heating 10 250°C. Coating uniformity: ± 5% with Model HSP-18 high speed planetary and with Model TP-8 substrate fixture . Tighter tolerances possible with custom shadow masking on TP-8. (13) Utility requirements—Optional accessory utility requirements not included Water : Filtered 3 gpm at minimum 50 psig inlet pressure at 60° to 80° F (0.95 l/m, 3.5kg/cm2, 16° to 27° C). Compressed air: 5 cfm at 60 to 125 psig inlet pressure, filtered and dried ( 142 l/m, 4.2 to 8.8 kg/cm2 ). Power: 208 V, 3 phase, 30 A, 60 Hz, 5 wire wye connection with ground and neutral. Optional voltages available. Ambient temperature: 80° F ± 10°(26.8°c ± 5.5o) . Humidity: 50% maximum. System weight: Approximately 980 lb(445 kg).환경 설정
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