際際滷shows by User: NIKHILKRISHNA14 / http://www.slideshare.net/images/logo.gif 際際滷shows by User: NIKHILKRISHNA14 / Mon, 25 Apr 2016 14:25:58 GMT 際際滷Share feed for 際際滷shows by User: NIKHILKRISHNA14 C language first program /slideshow/c-language-first-program/61325028 t02afirstcprogram-160425142558
C (/si/, as in the letter c) is a general-purpose, imperative computer programming language, supporting structured programming, lexical variable scope and recursion, while a static type system prevents many unintended operations. By design, C provides constructs that map efficiently to typical machine instructions, and therefore it has found lasting use in applications that had formerly been coded in assembly language, including operating systems, as well as various application software for computers ranging from supercomputers to embedded systems. C was originally developed by Dennis Ritchie between 1969 and 1973 at Bell Labs,[5] and used to re-implement the Unix operating system.[6] It has since become one of the most widely used programming languages of all time,[7][8] with C compilers from various vendors available for the majority of existing computer architectures and operating systems. C has been standardized by the American National Standards Institute (ANSI) since 1989 (see ANSI C) and subsequently by the International Organization for Standardization (ISO).]]>
C (/si/, as in the letter c) is a general-purpose, imperative computer programming language, supporting structured programming, lexical variable scope and recursion, while a static type system prevents many unintended operations. By design, C provides constructs that map efficiently to typical machine instructions, and therefore it has found lasting use in applications that had formerly been coded in assembly language, including operating systems, as well as various application software for computers ranging from supercomputers to embedded systems. C was originally developed by Dennis Ritchie between 1969 and 1973 at Bell Labs,[5] and used to re-implement the Unix operating system.[6] It has since become one of the most widely used programming languages of all time,[7][8] with C compilers from various vendors available for the majority of existing computer architectures and operating systems. C has been standardized by the American National Standards Institute (ANSI) since 1989 (see ANSI C) and subsequently by the International Organization for Standardization (ISO).]]> Mon, 25 Apr 2016 14:25:58 GMT /slideshow/c-language-first-program/61325028 NIKHILKRISHNA14@slideshare.net(NIKHILKRISHNA14) C language first program NIKHILKRISHNA14 C (/si/, as in the letter c) is a general-purpose, imperative computer programming language, supporting structured programming, lexical variable scope and recursion, while a static type system prevents many unintended operations. By design, C provides constructs that map efficiently to typical machine instructions, and therefore it has found lasting use in applications that had formerly been coded in assembly language, including operating systems, as well as various application software for computers ranging from supercomputers to embedded systems. C was originally developed by Dennis Ritchie between 1969 and 1973 at Bell Labs,[5] and used to re-implement the Unix operating system.[6] It has since become one of the most widely used programming languages of all time,[7][8] with C compilers from various vendors available for the majority of existing computer architectures and operating systems. C has been standardized by the American National Standards Institute (ANSI) since 1989 (see ANSI C) and subsequently by the International Organization for Standardization (ISO). <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/t02afirstcprogram-160425142558-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> C (/si/, as in the letter c) is a general-purpose, imperative computer programming language, supporting structured programming, lexical variable scope and recursion, while a static type system prevents many unintended operations. By design, C provides constructs that map efficiently to typical machine instructions, and therefore it has found lasting use in applications that had formerly been coded in assembly language, including operating systems, as well as various application software for computers ranging from supercomputers to embedded systems. C was originally developed by Dennis Ritchie between 1969 and 1973 at Bell Labs,[5] and used to re-implement the Unix operating system.[6] It has since become one of the most widely used programming languages of all time,[7][8] with C compilers from various vendors available for the majority of existing computer architectures and operating systems. C has been standardized by the American National Standards Institute (ANSI) since 1989 (see ANSI C) and subsequently by the International Organization for Standardization (ISO).
C language first program from NIKHIL KRISHNA
]]> 633 4 https://cdn.slidesharecdn.com/ss_thumbnails/t02afirstcprogram-160425142558-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 C language computer introduction to the computer hardware /slideshow/c-language-computer-introduction-to-the-computer-hardware/61324870 t01acomputerintrohardware-160425142212
C (/si/, as in the letter c) is a general-purpose, imperative computer programming language, supporting structured programming, lexical variable scope and recursion, while a static type system prevents many unintended operations. By design, C provides constructs that map efficiently to typical machine instructions, and therefore it has found lasting use in applications that had formerly been coded in assembly language, including operating systems, as well as various application software for computers ranging from supercomputers to embedded systems. C was originally developed by Dennis Ritchie between 1969 and 1973 at Bell Labs,[5] and used to re-implement the Unix operating system.[6] It has since become one of the most widely used programming languages of all time,[7][8] with C compilers from various vendors available for the majority of existing computer architectures and operating systems. C has been standardized by the American National Standards Institute (ANSI) since 1989 (see ANSI C) and subsequently by the International Organization for Standardization (ISO).]]>
C (/si/, as in the letter c) is a general-purpose, imperative computer programming language, supporting structured programming, lexical variable scope and recursion, while a static type system prevents many unintended operations. By design, C provides constructs that map efficiently to typical machine instructions, and therefore it has found lasting use in applications that had formerly been coded in assembly language, including operating systems, as well as various application software for computers ranging from supercomputers to embedded systems. C was originally developed by Dennis Ritchie between 1969 and 1973 at Bell Labs,[5] and used to re-implement the Unix operating system.[6] It has since become one of the most widely used programming languages of all time,[7][8] with C compilers from various vendors available for the majority of existing computer architectures and operating systems. C has been standardized by the American National Standards Institute (ANSI) since 1989 (see ANSI C) and subsequently by the International Organization for Standardization (ISO).]]> Mon, 25 Apr 2016 14:22:12 GMT /slideshow/c-language-computer-introduction-to-the-computer-hardware/61324870 NIKHILKRISHNA14@slideshare.net(NIKHILKRISHNA14) C language computer introduction to the computer hardware NIKHILKRISHNA14 C (/si/, as in the letter c) is a general-purpose, imperative computer programming language, supporting structured programming, lexical variable scope and recursion, while a static type system prevents many unintended operations. By design, C provides constructs that map efficiently to typical machine instructions, and therefore it has found lasting use in applications that had formerly been coded in assembly language, including operating systems, as well as various application software for computers ranging from supercomputers to embedded systems. C was originally developed by Dennis Ritchie between 1969 and 1973 at Bell Labs,[5] and used to re-implement the Unix operating system.[6] It has since become one of the most widely used programming languages of all time,[7][8] with C compilers from various vendors available for the majority of existing computer architectures and operating systems. C has been standardized by the American National Standards Institute (ANSI) since 1989 (see ANSI C) and subsequently by the International Organization for Standardization (ISO). <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/t01acomputerintrohardware-160425142212-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> C (/si/, as in the letter c) is a general-purpose, imperative computer programming language, supporting structured programming, lexical variable scope and recursion, while a static type system prevents many unintended operations. By design, C provides constructs that map efficiently to typical machine instructions, and therefore it has found lasting use in applications that had formerly been coded in assembly language, including operating systems, as well as various application software for computers ranging from supercomputers to embedded systems. C was originally developed by Dennis Ritchie between 1969 and 1973 at Bell Labs,[5] and used to re-implement the Unix operating system.[6] It has since become one of the most widely used programming languages of all time,[7][8] with C compilers from various vendors available for the majority of existing computer architectures and operating systems. C has been standardized by the American National Standards Institute (ANSI) since 1989 (see ANSI C) and subsequently by the International Organization for Standardization (ISO).
C language computer introduction to the computer hardware from NIKHIL KRISHNA
]]> 1306 4 https://cdn.slidesharecdn.com/ss_thumbnails/t01acomputerintrohardware-160425142212-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 All surface empty bottle inspection(ASEBI) FULL DOCUMENTATION /slideshow/all-surface-empty-bottle-inspectionasebi-full-documentation/61283385 allsurfaceemptybottleinspection-160424093908
The Filtec Omnivision All Surface Empty Bottle Inspector (ASEBI), with a modular design that makes expandable functionality possible through available technology upgrades, meets the needs of small to medium size bottling facilities. Operating at speeds of up to 700 bottles per minute, the standard ASEBI comes equipped with a high resolution Camera Base Inspection system. Optional functions include inspection of the finish, thread, outer sidewall, inner sidewall, as well as the detection of residual liquid by infrared and RF techniques.Transparent films are detected with a special optical technique known as the Bright Field Analyzer. Reject verification, test bottle verification, rotating self-cleaning diffuser glass, serial interface port (MODBUS Protocol), isolated PLC outputs, and enclosure doors are also available as options. All of these options can easily be upgraded in the field, which assures maximum adaptability of the Filtec Omnivision. Filtec Omnivision is appropriate for bottling operations that fill returnable plastic or glass bottles for soft drinks, beer, and other products.The production conveyor powers the automatic starwheel drive system; this assures that the starwheel is always synchronized with bottle flow. Upstream sensors control the starwheel drive system and regulate gap closure of bottles entering the starwheel to provide smooth stops and starts which minimize breakage, jams, and noise. Handling bottles up to 104-mm-dia, the Filtec Omnivision improves productivity by reducing changeover related downtime to less than five min. The Filtec Omnivision offers a touchpad control panel and LCD color monitor that are both mounted on a swing arm that rotates for easy operator viewing. ]]>
The Filtec Omnivision All Surface Empty Bottle Inspector (ASEBI), with a modular design that makes expandable functionality possible through available technology upgrades, meets the needs of small to medium size bottling facilities. Operating at speeds of up to 700 bottles per minute, the standard ASEBI comes equipped with a high resolution Camera Base Inspection system. Optional functions include inspection of the finish, thread, outer sidewall, inner sidewall, as well as the detection of residual liquid by infrared and RF techniques.Transparent films are detected with a special optical technique known as the Bright Field Analyzer. Reject verification, test bottle verification, rotating self-cleaning diffuser glass, serial interface port (MODBUS Protocol), isolated PLC outputs, and enclosure doors are also available as options. All of these options can easily be upgraded in the field, which assures maximum adaptability of the Filtec Omnivision. Filtec Omnivision is appropriate for bottling operations that fill returnable plastic or glass bottles for soft drinks, beer, and other products.The production conveyor powers the automatic starwheel drive system; this assures that the starwheel is always synchronized with bottle flow. Upstream sensors control the starwheel drive system and regulate gap closure of bottles entering the starwheel to provide smooth stops and starts which minimize breakage, jams, and noise. Handling bottles up to 104-mm-dia, the Filtec Omnivision improves productivity by reducing changeover related downtime to less than five min. The Filtec Omnivision offers a touchpad control panel and LCD color monitor that are both mounted on a swing arm that rotates for easy operator viewing. ]]> Sun, 24 Apr 2016 09:39:08 GMT /slideshow/all-surface-empty-bottle-inspectionasebi-full-documentation/61283385 NIKHILKRISHNA14@slideshare.net(NIKHILKRISHNA14) All surface empty bottle inspection(ASEBI) FULL DOCUMENTATION NIKHILKRISHNA14 The Filtec Omnivision All Surface Empty Bottle Inspector (ASEBI), with a modular design that makes expandable functionality possible through available technology upgrades, meets the needs of small to medium size bottling facilities. Operating at speeds of up to 700 bottles per minute, the standard ASEBI comes equipped with a high resolution Camera Base Inspection system. Optional functions include inspection of the finish, thread, outer sidewall, inner sidewall, as well as the detection of residual liquid by infrared and RF techniques.Transparent films are detected with a special optical technique known as the Bright Field Analyzer. Reject verification, test bottle verification, rotating self-cleaning diffuser glass, serial interface port (MODBUS Protocol), isolated PLC outputs, and enclosure doors are also available as options. All of these options can easily be upgraded in the field, which assures maximum adaptability of the Filtec Omnivision. Filtec Omnivision is appropriate for bottling operations that fill returnable plastic or glass bottles for soft drinks, beer, and other products.The production conveyor powers the automatic starwheel drive system; this assures that the starwheel is always synchronized with bottle flow. Upstream sensors control the starwheel drive system and regulate gap closure of bottles entering the starwheel to provide smooth stops and starts which minimize breakage, jams, and noise. Handling bottles up to 104-mm-dia, the Filtec Omnivision improves productivity by reducing changeover related downtime to less than five min. The Filtec Omnivision offers a touchpad control panel and LCD color monitor that are both mounted on a swing arm that rotates for easy operator viewing. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/allsurfaceemptybottleinspection-160424093908-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> The Filtec Omnivision All Surface Empty Bottle Inspector (ASEBI), with a modular design that makes expandable functionality possible through available technology upgrades, meets the needs of small to medium size bottling facilities. Operating at speeds of up to 700 bottles per minute, the standard ASEBI comes equipped with a high resolution Camera Base Inspection system. Optional functions include inspection of the finish, thread, outer sidewall, inner sidewall, as well as the detection of residual liquid by infrared and RF techniques.Transparent films are detected with a special optical technique known as the Bright Field Analyzer. Reject verification, test bottle verification, rotating self-cleaning diffuser glass, serial interface port (MODBUS Protocol), isolated PLC outputs, and enclosure doors are also available as options. All of these options can easily be upgraded in the field, which assures maximum adaptability of the Filtec Omnivision. Filtec Omnivision is appropriate for bottling operations that fill returnable plastic or glass bottles for soft drinks, beer, and other products.The production conveyor powers the automatic starwheel drive system; this assures that the starwheel is always synchronized with bottle flow. Upstream sensors control the starwheel drive system and regulate gap closure of bottles entering the starwheel to provide smooth stops and starts which minimize breakage, jams, and noise. Handling bottles up to 104-mm-dia, the Filtec Omnivision improves productivity by reducing changeover related downtime to less than five min. The Filtec Omnivision offers a touchpad control panel and LCD color monitor that are both mounted on a swing arm that rotates for easy operator viewing.
All surface empty bottle inspection(ASEBI) FULL DOCUMENTATION from NIKHIL KRISHNA
]]> 11466 17 https://cdn.slidesharecdn.com/ss_thumbnails/allsurfaceemptybottleinspection-160424093908-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 COCO-COLA MAINTAINCE AND TRAINING(ASEBI) /slideshow/cococola-maintaince-and-trainingasebi/61282958 training-160424091125
he Filtec Omnivision I All Surface Empty Bottle Inspector (ASEBI), with a modular design that makes expandable functionality possible through available technology upgrades, meets the needs of small to medium size bottling facilities. Operating at speeds of up to 700 bottles per minute, the standard ASEBI comes equipped with a high resolution Camera Base Inspection system. Optional functions include inspection of the finish, thread, outer sidewall, inner sidewall, as well as the detection of residual liquid by infrared and RF techniques. Transparent films are detected with a special optical technique known as the Bright Field Analyzer. Reject verification, test bottle verification, rotating self-cleaning diffuser glass, serial interface port (MODBUS Protocol), isolated PLC outputs, and enclosure doors are also available as options. All of these options can easily be upgraded in the field, which assures maximum adaptability of the Filtec Omnivision I. Filtec Omnivision I is appropriate for bottling operations that fill returnable plastic or glass bottles for soft drinks, beer, and other products. The Filtec Omnivision I requires minimal floor space and is designed to reduce installation costs by using a single vacuum starwheel system that eliminates the additional conveyors and line control systems required with linear type machines. The production conveyor powers the automatic starwheel drive system; this assures that the starwheel is always synchronized with bottle flow. Upstream sensors control the starwheel drive system and regulate gap closure of bottles entering the starwheel to provide smooth stops and starts which minimize breakage, jams, and noise. Handling bottles up to 104-mm-dia, the Filtec Omnivision I improves productivity by reducing changeover related downtime to less than five min. The Filtec Omnivision I offers a touchpad control panel and LCD color monitor that are both mounted on a swing arm that rotates for easy operator viewing. ]]>
he Filtec Omnivision I All Surface Empty Bottle Inspector (ASEBI), with a modular design that makes expandable functionality possible through available technology upgrades, meets the needs of small to medium size bottling facilities. Operating at speeds of up to 700 bottles per minute, the standard ASEBI comes equipped with a high resolution Camera Base Inspection system. Optional functions include inspection of the finish, thread, outer sidewall, inner sidewall, as well as the detection of residual liquid by infrared and RF techniques. Transparent films are detected with a special optical technique known as the Bright Field Analyzer. Reject verification, test bottle verification, rotating self-cleaning diffuser glass, serial interface port (MODBUS Protocol), isolated PLC outputs, and enclosure doors are also available as options. All of these options can easily be upgraded in the field, which assures maximum adaptability of the Filtec Omnivision I. Filtec Omnivision I is appropriate for bottling operations that fill returnable plastic or glass bottles for soft drinks, beer, and other products. The Filtec Omnivision I requires minimal floor space and is designed to reduce installation costs by using a single vacuum starwheel system that eliminates the additional conveyors and line control systems required with linear type machines. The production conveyor powers the automatic starwheel drive system; this assures that the starwheel is always synchronized with bottle flow. Upstream sensors control the starwheel drive system and regulate gap closure of bottles entering the starwheel to provide smooth stops and starts which minimize breakage, jams, and noise. Handling bottles up to 104-mm-dia, the Filtec Omnivision I improves productivity by reducing changeover related downtime to less than five min. The Filtec Omnivision I offers a touchpad control panel and LCD color monitor that are both mounted on a swing arm that rotates for easy operator viewing. ]]> Sun, 24 Apr 2016 09:11:25 GMT /slideshow/cococola-maintaince-and-trainingasebi/61282958 NIKHILKRISHNA14@slideshare.net(NIKHILKRISHNA14) COCO-COLA MAINTAINCE AND TRAINING(ASEBI) NIKHILKRISHNA14 he Filtec Omnivision I All Surface Empty Bottle Inspector (ASEBI), with a modular design that makes expandable functionality possible through available technology upgrades, meets the needs of small to medium size bottling facilities. Operating at speeds of up to 700 bottles per minute, the standard ASEBI comes equipped with a high resolution Camera Base Inspection system. Optional functions include inspection of the finish, thread, outer sidewall, inner sidewall, as well as the detection of residual liquid by infrared and RF techniques. Transparent films are detected with a special optical technique known as the Bright Field Analyzer. Reject verification, test bottle verification, rotating self-cleaning diffuser glass, serial interface port (MODBUS Protocol), isolated PLC outputs, and enclosure doors are also available as options. All of these options can easily be upgraded in the field, which assures maximum adaptability of the Filtec Omnivision I. Filtec Omnivision I is appropriate for bottling operations that fill returnable plastic or glass bottles for soft drinks, beer, and other products. The Filtec Omnivision I requires minimal floor space and is designed to reduce installation costs by using a single vacuum starwheel system that eliminates the additional conveyors and line control systems required with linear type machines. The production conveyor powers the automatic starwheel drive system; this assures that the starwheel is always synchronized with bottle flow. Upstream sensors control the starwheel drive system and regulate gap closure of bottles entering the starwheel to provide smooth stops and starts which minimize breakage, jams, and noise. Handling bottles up to 104-mm-dia, the Filtec Omnivision I improves productivity by reducing changeover related downtime to less than five min. The Filtec Omnivision I offers a touchpad control panel and LCD color monitor that are both mounted on a swing arm that rotates for easy operator viewing. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/training-160424091125-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> he Filtec Omnivision I All Surface Empty Bottle Inspector (ASEBI), with a modular design that makes expandable functionality possible through available technology upgrades, meets the needs of small to medium size bottling facilities. Operating at speeds of up to 700 bottles per minute, the standard ASEBI comes equipped with a high resolution Camera Base Inspection system. Optional functions include inspection of the finish, thread, outer sidewall, inner sidewall, as well as the detection of residual liquid by infrared and RF techniques. Transparent films are detected with a special optical technique known as the Bright Field Analyzer. Reject verification, test bottle verification, rotating self-cleaning diffuser glass, serial interface port (MODBUS Protocol), isolated PLC outputs, and enclosure doors are also available as options. All of these options can easily be upgraded in the field, which assures maximum adaptability of the Filtec Omnivision I. Filtec Omnivision I is appropriate for bottling operations that fill returnable plastic or glass bottles for soft drinks, beer, and other products. The Filtec Omnivision I requires minimal floor space and is designed to reduce installation costs by using a single vacuum starwheel system that eliminates the additional conveyors and line control systems required with linear type machines. The production conveyor powers the automatic starwheel drive system; this assures that the starwheel is always synchronized with bottle flow. Upstream sensors control the starwheel drive system and regulate gap closure of bottles entering the starwheel to provide smooth stops and starts which minimize breakage, jams, and noise. Handling bottles up to 104-mm-dia, the Filtec Omnivision I improves productivity by reducing changeover related downtime to less than five min. The Filtec Omnivision I offers a touchpad control panel and LCD color monitor that are both mounted on a swing arm that rotates for easy operator viewing.
COCO-COLA MAINTAINCE AND TRAINING(ASEBI) from NIKHIL KRISHNA
]]> 5338 10 https://cdn.slidesharecdn.com/ss_thumbnails/training-160424091125-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 ALL SURFACE EMPTY BOTTLE INSPECTION TRAINING /slideshow/all-surface-empty-bottle-inspection-training/61282848 asebi-1-160424090421
he Filtec Omnivision I All Surface Empty Bottle Inspector (ASEBI), with a modular design that makes expandable functionality possible through available technology upgrades, meets the needs of small to medium size bottling facilities. Operating at speeds of up to 700 bottles per minute, the standard ASEBI comes equipped with a high resolution Camera Base Inspection system. Optional functions include inspection of the finish, thread, outer sidewall, inner sidewall, as well as the detection of residual liquid by infrared and RF techniques. Transparent films are detected with a special optical technique known as the Bright Field Analyzer. Reject verification, test bottle verification, rotating self-cleaning diffuser glass, serial interface port (MODBUS Protocol), isolated PLC outputs, and enclosure doors are also available as options. All of these options can easily be upgraded in the field, which assures maximum adaptability of the Filtec Omnivision I. Filtec Omnivision I is appropriate for bottling operations that fill returnable plastic or glass bottles for soft drinks, beer, and other products. The Filtec Omnivision I requires minimal floor space and is designed to reduce installation costs by using a single vacuum starwheel system that eliminates the additional conveyors and line control systems required with linear type machines. The production conveyor powers the automatic starwheel drive system; this assures that the starwheel is always synchronized with bottle flow. Upstream sensors control the starwheel drive system and regulate gap closure of bottles entering the starwheel to provide smooth stops and starts which minimize breakage, jams, and noise. Handling bottles up to 104-mm-dia, the Filtec Omnivision I improves productivity by reducing changeover related downtime to less than five min. The Filtec Omnivision I offers a touchpad control panel and LCD color monitor that are both mounted on a swing arm that rotates for easy operator viewing. ]]>
he Filtec Omnivision I All Surface Empty Bottle Inspector (ASEBI), with a modular design that makes expandable functionality possible through available technology upgrades, meets the needs of small to medium size bottling facilities. Operating at speeds of up to 700 bottles per minute, the standard ASEBI comes equipped with a high resolution Camera Base Inspection system. Optional functions include inspection of the finish, thread, outer sidewall, inner sidewall, as well as the detection of residual liquid by infrared and RF techniques. Transparent films are detected with a special optical technique known as the Bright Field Analyzer. Reject verification, test bottle verification, rotating self-cleaning diffuser glass, serial interface port (MODBUS Protocol), isolated PLC outputs, and enclosure doors are also available as options. All of these options can easily be upgraded in the field, which assures maximum adaptability of the Filtec Omnivision I. Filtec Omnivision I is appropriate for bottling operations that fill returnable plastic or glass bottles for soft drinks, beer, and other products. The Filtec Omnivision I requires minimal floor space and is designed to reduce installation costs by using a single vacuum starwheel system that eliminates the additional conveyors and line control systems required with linear type machines. The production conveyor powers the automatic starwheel drive system; this assures that the starwheel is always synchronized with bottle flow. Upstream sensors control the starwheel drive system and regulate gap closure of bottles entering the starwheel to provide smooth stops and starts which minimize breakage, jams, and noise. Handling bottles up to 104-mm-dia, the Filtec Omnivision I improves productivity by reducing changeover related downtime to less than five min. The Filtec Omnivision I offers a touchpad control panel and LCD color monitor that are both mounted on a swing arm that rotates for easy operator viewing. ]]> Sun, 24 Apr 2016 09:04:21 GMT /slideshow/all-surface-empty-bottle-inspection-training/61282848 NIKHILKRISHNA14@slideshare.net(NIKHILKRISHNA14) ALL SURFACE EMPTY BOTTLE INSPECTION TRAINING NIKHILKRISHNA14 he Filtec Omnivision I All Surface Empty Bottle Inspector (ASEBI), with a modular design that makes expandable functionality possible through available technology upgrades, meets the needs of small to medium size bottling facilities. Operating at speeds of up to 700 bottles per minute, the standard ASEBI comes equipped with a high resolution Camera Base Inspection system. Optional functions include inspection of the finish, thread, outer sidewall, inner sidewall, as well as the detection of residual liquid by infrared and RF techniques. Transparent films are detected with a special optical technique known as the Bright Field Analyzer. Reject verification, test bottle verification, rotating self-cleaning diffuser glass, serial interface port (MODBUS Protocol), isolated PLC outputs, and enclosure doors are also available as options. All of these options can easily be upgraded in the field, which assures maximum adaptability of the Filtec Omnivision I. Filtec Omnivision I is appropriate for bottling operations that fill returnable plastic or glass bottles for soft drinks, beer, and other products. The Filtec Omnivision I requires minimal floor space and is designed to reduce installation costs by using a single vacuum starwheel system that eliminates the additional conveyors and line control systems required with linear type machines. The production conveyor powers the automatic starwheel drive system; this assures that the starwheel is always synchronized with bottle flow. Upstream sensors control the starwheel drive system and regulate gap closure of bottles entering the starwheel to provide smooth stops and starts which minimize breakage, jams, and noise. Handling bottles up to 104-mm-dia, the Filtec Omnivision I improves productivity by reducing changeover related downtime to less than five min. The Filtec Omnivision I offers a touchpad control panel and LCD color monitor that are both mounted on a swing arm that rotates for easy operator viewing. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/asebi-1-160424090421-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> he Filtec Omnivision I All Surface Empty Bottle Inspector (ASEBI), with a modular design that makes expandable functionality possible through available technology upgrades, meets the needs of small to medium size bottling facilities. Operating at speeds of up to 700 bottles per minute, the standard ASEBI comes equipped with a high resolution Camera Base Inspection system. Optional functions include inspection of the finish, thread, outer sidewall, inner sidewall, as well as the detection of residual liquid by infrared and RF techniques. Transparent films are detected with a special optical technique known as the Bright Field Analyzer. Reject verification, test bottle verification, rotating self-cleaning diffuser glass, serial interface port (MODBUS Protocol), isolated PLC outputs, and enclosure doors are also available as options. All of these options can easily be upgraded in the field, which assures maximum adaptability of the Filtec Omnivision I. Filtec Omnivision I is appropriate for bottling operations that fill returnable plastic or glass bottles for soft drinks, beer, and other products. The Filtec Omnivision I requires minimal floor space and is designed to reduce installation costs by using a single vacuum starwheel system that eliminates the additional conveyors and line control systems required with linear type machines. The production conveyor powers the automatic starwheel drive system; this assures that the starwheel is always synchronized with bottle flow. Upstream sensors control the starwheel drive system and regulate gap closure of bottles entering the starwheel to provide smooth stops and starts which minimize breakage, jams, and noise. Handling bottles up to 104-mm-dia, the Filtec Omnivision I improves productivity by reducing changeover related downtime to less than five min. The Filtec Omnivision I offers a touchpad control panel and LCD color monitor that are both mounted on a swing arm that rotates for easy operator viewing.
ALL SURFACE EMPTY BOTTLE INSPECTION TRAINING from NIKHIL KRISHNA
]]> 1345 5 https://cdn.slidesharecdn.com/ss_thumbnails/asebi-1-160424090421-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 EMPTY BOTTLE INSPECTION MACHINE /slideshow/empty-bottle-inspection-machine/61282756 ebioverview-160424085611
he Filtec Omnivision I All Surface Empty Bottle Inspector (ASEBI), with a modular design that makes expandable functionality possible through available technology upgrades, meets the needs of small to medium size bottling facilities. Operating at speeds of up to 700 bottles per minute, the standard ASEBI comes equipped with a high resolution Camera Base Inspection system. Optional functions include inspection of the finish, thread, outer sidewall, inner sidewall, as well as the detection of residual liquid by infrared and RF techniques. Transparent films are detected with a special optical technique known as the Bright Field Analyzer. Reject verification, test bottle verification, rotating self-cleaning diffuser glass, serial interface port (MODBUS Protocol), isolated PLC outputs, and enclosure doors are also available as options. All of these options can easily be upgraded in the field, which assures maximum adaptability of the Filtec Omnivision I. Filtec Omnivision I is appropriate for bottling operations that fill returnable plastic or glass bottles for soft drinks, beer, and other products. The Filtec Omnivision I requires minimal floor space and is designed to reduce installation costs by using a single vacuum starwheel system that eliminates the additional conveyors and line control systems required with linear type machines. The production conveyor powers the automatic starwheel drive system; this assures that the starwheel is always synchronized with bottle flow. Upstream sensors control the starwheel drive system and regulate gap closure of bottles entering the starwheel to provide smooth stops and starts which minimize breakage, jams, and noise. Handling bottles up to 104-mm-dia, the Filtec Omnivision I improves productivity by reducing changeover related downtime to less than five min. The Filtec Omnivision I offers a touchpad control panel and LCD color monitor that are both mounted on a swing arm that rotates for easy operator viewing. ]]>
he Filtec Omnivision I All Surface Empty Bottle Inspector (ASEBI), with a modular design that makes expandable functionality possible through available technology upgrades, meets the needs of small to medium size bottling facilities. Operating at speeds of up to 700 bottles per minute, the standard ASEBI comes equipped with a high resolution Camera Base Inspection system. Optional functions include inspection of the finish, thread, outer sidewall, inner sidewall, as well as the detection of residual liquid by infrared and RF techniques. Transparent films are detected with a special optical technique known as the Bright Field Analyzer. Reject verification, test bottle verification, rotating self-cleaning diffuser glass, serial interface port (MODBUS Protocol), isolated PLC outputs, and enclosure doors are also available as options. All of these options can easily be upgraded in the field, which assures maximum adaptability of the Filtec Omnivision I. Filtec Omnivision I is appropriate for bottling operations that fill returnable plastic or glass bottles for soft drinks, beer, and other products. The Filtec Omnivision I requires minimal floor space and is designed to reduce installation costs by using a single vacuum starwheel system that eliminates the additional conveyors and line control systems required with linear type machines. The production conveyor powers the automatic starwheel drive system; this assures that the starwheel is always synchronized with bottle flow. Upstream sensors control the starwheel drive system and regulate gap closure of bottles entering the starwheel to provide smooth stops and starts which minimize breakage, jams, and noise. Handling bottles up to 104-mm-dia, the Filtec Omnivision I improves productivity by reducing changeover related downtime to less than five min. The Filtec Omnivision I offers a touchpad control panel and LCD color monitor that are both mounted on a swing arm that rotates for easy operator viewing. ]]> Sun, 24 Apr 2016 08:56:11 GMT /slideshow/empty-bottle-inspection-machine/61282756 NIKHILKRISHNA14@slideshare.net(NIKHILKRISHNA14) EMPTY BOTTLE INSPECTION MACHINE NIKHILKRISHNA14 he Filtec Omnivision I All Surface Empty Bottle Inspector (ASEBI), with a modular design that makes expandable functionality possible through available technology upgrades, meets the needs of small to medium size bottling facilities. Operating at speeds of up to 700 bottles per minute, the standard ASEBI comes equipped with a high resolution Camera Base Inspection system. Optional functions include inspection of the finish, thread, outer sidewall, inner sidewall, as well as the detection of residual liquid by infrared and RF techniques. Transparent films are detected with a special optical technique known as the Bright Field Analyzer. Reject verification, test bottle verification, rotating self-cleaning diffuser glass, serial interface port (MODBUS Protocol), isolated PLC outputs, and enclosure doors are also available as options. All of these options can easily be upgraded in the field, which assures maximum adaptability of the Filtec Omnivision I. Filtec Omnivision I is appropriate for bottling operations that fill returnable plastic or glass bottles for soft drinks, beer, and other products. The Filtec Omnivision I requires minimal floor space and is designed to reduce installation costs by using a single vacuum starwheel system that eliminates the additional conveyors and line control systems required with linear type machines. The production conveyor powers the automatic starwheel drive system; this assures that the starwheel is always synchronized with bottle flow. Upstream sensors control the starwheel drive system and regulate gap closure of bottles entering the starwheel to provide smooth stops and starts which minimize breakage, jams, and noise. Handling bottles up to 104-mm-dia, the Filtec Omnivision I improves productivity by reducing changeover related downtime to less than five min. The Filtec Omnivision I offers a touchpad control panel and LCD color monitor that are both mounted on a swing arm that rotates for easy operator viewing. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/ebioverview-160424085611-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> he Filtec Omnivision I All Surface Empty Bottle Inspector (ASEBI), with a modular design that makes expandable functionality possible through available technology upgrades, meets the needs of small to medium size bottling facilities. Operating at speeds of up to 700 bottles per minute, the standard ASEBI comes equipped with a high resolution Camera Base Inspection system. Optional functions include inspection of the finish, thread, outer sidewall, inner sidewall, as well as the detection of residual liquid by infrared and RF techniques. Transparent films are detected with a special optical technique known as the Bright Field Analyzer. Reject verification, test bottle verification, rotating self-cleaning diffuser glass, serial interface port (MODBUS Protocol), isolated PLC outputs, and enclosure doors are also available as options. All of these options can easily be upgraded in the field, which assures maximum adaptability of the Filtec Omnivision I. Filtec Omnivision I is appropriate for bottling operations that fill returnable plastic or glass bottles for soft drinks, beer, and other products. The Filtec Omnivision I requires minimal floor space and is designed to reduce installation costs by using a single vacuum starwheel system that eliminates the additional conveyors and line control systems required with linear type machines. The production conveyor powers the automatic starwheel drive system; this assures that the starwheel is always synchronized with bottle flow. Upstream sensors control the starwheel drive system and regulate gap closure of bottles entering the starwheel to provide smooth stops and starts which minimize breakage, jams, and noise. Handling bottles up to 104-mm-dia, the Filtec Omnivision I improves productivity by reducing changeover related downtime to less than five min. The Filtec Omnivision I offers a touchpad control panel and LCD color monitor that are both mounted on a swing arm that rotates for easy operator viewing.
EMPTY BOTTLE INSPECTION MACHINE from NIKHIL KRISHNA
]]> 7619 9 https://cdn.slidesharecdn.com/ss_thumbnails/ebioverview-160424085611-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 SOLAR TREE /slideshow/solar-tree-61274517/61274517 solartree-140521004426-phpapp01-160423203117
A solar tree is a decorative means of producing solar energy and also electricity. It uses multiple no of solar panels which forms the shape of a tree. The panels are arranged in a tree fashion in a tall tower/pole.]]>
A solar tree is a decorative means of producing solar energy and also electricity. It uses multiple no of solar panels which forms the shape of a tree. The panels are arranged in a tree fashion in a tall tower/pole.]]> Sat, 23 Apr 2016 20:31:16 GMT /slideshow/solar-tree-61274517/61274517 NIKHILKRISHNA14@slideshare.net(NIKHILKRISHNA14) SOLAR TREE NIKHILKRISHNA14 A solar tree is a decorative means of producing solar energy and also electricity. It uses multiple no of solar panels which forms the shape of a tree. The panels are arranged in a tree fashion in a tall tower/pole. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/solartree-140521004426-phpapp01-160423203117-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> A solar tree is a decorative means of producing solar energy and also electricity. It uses multiple no of solar panels which forms the shape of a tree. The panels are arranged in a tree fashion in a tall tower/pole.
SOLAR TREE from NIKHIL KRISHNA
]]> 793 4 https://cdn.slidesharecdn.com/ss_thumbnails/solartree-140521004426-phpapp01-160423203117-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 https://public.slidesharecdn.com/v2/images/profile-picture.png https://cdn.slidesharecdn.com/ss_thumbnails/t02afirstcprogram-160425142558-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/c-language-first-program/61325028 C language first program https://cdn.slidesharecdn.com/ss_thumbnails/t01acomputerintrohardware-160425142212-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/c-language-computer-introduction-to-the-computer-hardware/61324870 C language computer i... https://cdn.slidesharecdn.com/ss_thumbnails/allsurfaceemptybottleinspection-160424093908-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/all-surface-empty-bottle-inspectionasebi-full-documentation/61283385 All surface empty bott...