The SHIELD Intelligent 8 Loop FACP is an addressable fire alarm control panel with 8 loops that can support up to 1936 addressable devices. It has features such as a 140-zone LED display, history log that stores almost 2000 events, cause and effect logic programming, and networking capabilities to connect up to 64 nodes. Commissioning the panel requires an installers handbook, commissioning checklist, and laptop with software to properly configure the panel, loops, cards, and devices.
This document discusses calculating volumes of solids using integration. It begins by defining volumes precisely using calculus and cross-sectional areas. Cylinders are used as simple examples, where volume equals the area of the base times the height. Irregular solids are approximated as cylinders of infinitesimal thickness to define their volumes through integration. Several examples calculate volumes of solids obtained by rotating regions about axes, with disks or washers as cross-sections. The final examples calculate volumes without revolution by other methods.
This document discusses cubes and cube roots. It defines a perfect cube as a number that is the cube of an integer. Perfect cubes have integer cube roots. The document provides examples of determining if a number is a perfect cube and finding the cube root of perfect cubes. It also discusses the relationships between side lengths, volumes, and cube root operations for cubes.
The document defines definite integrals and discusses their properties. It states that a definite integral evaluates to a single number by integrating a function over a closed interval from a lower limit to an upper limit. It gives examples of using definite integrals to find areas bounded by curves. The mean value theorem for integrals is also introduced, which states that there is a rectangle between the inscribed and circumscribed rectangles with an area equal to the region under the curve. Exercises are provided on evaluating definite integrals and applying the mean value theorem.
The document defines and provides examples of dilations and scale factors. It explains that a dilation changes the size but not the shape of a figure. The scale factor is the ratio of the image to the preimage, where a scale factor greater than 1 enlarges the figure and less than 1 shrinks it. Examples are given of finding scale factors, determining new dimensions after a dilation, finding coordinates of dilated points and vertices, and dilating triangles and other figures centered at various points using different scale factors.
The document provides formulas for calculating the surface area of various 3D geometric shapes like cubes, cuboids, spheres, cylinders, cones, and combinations of shapes. The key information summarized is:
1) Formulas are given for surface area of individual shapes like cubes (6a^2), cuboids (2(lb+lh+bh)), spheres (4πr^2), cylinders (2πrh+2πr^2), and cones (πr(l+2h)).
2) Formulas are also provided for combinations of shapes, for example when two cubes are joined to form a cuboid the surface area is 10a^2.
3) In general,
1) The document discusses logarithms and how they were developed to simplify calculations of large numbers before calculators. Logarithms allow expressing a number as an exponent by finding what power of a base number equals the target number.
2) It provides examples of converting between exponential and logarithmic forms, using logarithmic properties to solve equations, and using change of base formulas to solve when the calculator uses a different base than the problem.
3) Key steps are shown to solve the equation 5x = 15,000 by rewriting in logarithmic form, using the change of base formula to solve for x, and checking the exponential form of the answer.
The document discusses different types of pyramids and formulas for calculating their volumes. It covers triangular, square, pentagonal, right, oblique, and truncated square pyramids. Formulas are provided for calculating the volume of each type of pyramid based on attributes of the base like its area or perimeter and the height. Examples are also given of applying the formulas to find the volume of different pyramids given their dimensions.
This document discusses calculating volumes of solids using integration. It begins by defining volumes precisely using calculus and cross-sectional areas. Cylinders are used as simple examples, where volume equals the area of the base times the height. Irregular solids are approximated as cylinders of infinitesimal thickness to define their volumes through integration. Several examples calculate volumes of solids obtained by rotating regions about axes, with disks or washers as cross-sections. The final examples calculate volumes without revolution by other methods.
This document discusses cubes and cube roots. It defines a perfect cube as a number that is the cube of an integer. Perfect cubes have integer cube roots. The document provides examples of determining if a number is a perfect cube and finding the cube root of perfect cubes. It also discusses the relationships between side lengths, volumes, and cube root operations for cubes.
The document defines definite integrals and discusses their properties. It states that a definite integral evaluates to a single number by integrating a function over a closed interval from a lower limit to an upper limit. It gives examples of using definite integrals to find areas bounded by curves. The mean value theorem for integrals is also introduced, which states that there is a rectangle between the inscribed and circumscribed rectangles with an area equal to the region under the curve. Exercises are provided on evaluating definite integrals and applying the mean value theorem.
The document defines and provides examples of dilations and scale factors. It explains that a dilation changes the size but not the shape of a figure. The scale factor is the ratio of the image to the preimage, where a scale factor greater than 1 enlarges the figure and less than 1 shrinks it. Examples are given of finding scale factors, determining new dimensions after a dilation, finding coordinates of dilated points and vertices, and dilating triangles and other figures centered at various points using different scale factors.
The document provides formulas for calculating the surface area of various 3D geometric shapes like cubes, cuboids, spheres, cylinders, cones, and combinations of shapes. The key information summarized is:
1) Formulas are given for surface area of individual shapes like cubes (6a^2), cuboids (2(lb+lh+bh)), spheres (4πr^2), cylinders (2πrh+2πr^2), and cones (πr(l+2h)).
2) Formulas are also provided for combinations of shapes, for example when two cubes are joined to form a cuboid the surface area is 10a^2.
3) In general,
1) The document discusses logarithms and how they were developed to simplify calculations of large numbers before calculators. Logarithms allow expressing a number as an exponent by finding what power of a base number equals the target number.
2) It provides examples of converting between exponential and logarithmic forms, using logarithmic properties to solve equations, and using change of base formulas to solve when the calculator uses a different base than the problem.
3) Key steps are shown to solve the equation 5x = 15,000 by rewriting in logarithmic form, using the change of base formula to solve for x, and checking the exponential form of the answer.
The document discusses different types of pyramids and formulas for calculating their volumes. It covers triangular, square, pentagonal, right, oblique, and truncated square pyramids. Formulas are provided for calculating the volume of each type of pyramid based on attributes of the base like its area or perimeter and the height. Examples are also given of applying the formulas to find the volume of different pyramids given their dimensions.
This document discusses arithmetic and geometric progressions. It defines arithmetic and geometric sequences as lists of numbers where each subsequent term is calculated using a common difference or ratio. It provides formulas to calculate the nth term and sum of the first n terms for both progressions. The document also discusses arithmetic and geometric means as the averages between two numbers in an arithmetic or geometric progression.
The document discusses three methods for solving the numeric expression 2(4+3):
1) Using the order of operations (BODMAS/PEMDAS) to evaluate the expression inside the parentheses first before multiplying.
2) Changing multiplication to addition by thinking of it as having "lots of" something.
3) Using the distributive property, where the number outside the parentheses is distributed across each term inside the parentheses.
This document provides information about common plane and 3D figures including their names, formulas for calculating area, perimeter/surface area, and volume. For plane figures it covers square, rectangle, trapezium, circle, and parallelogram. For 3D figures it covers cube, cuboid, cylinder, sphere, and cone. It lists the key formulas for calculating measurements of each shape.
This document provides an overview of triple integrals and their applications. It defines triple integrals as the limit of triple Riemann sums for functions of three variables, analogous to double integrals. Triple integrals can be evaluated over rectangular boxes by expressing them as iterated integrals in any of six orders, as stated by Fubini's theorem. The document also describes how to evaluate triple integrals over more general bounded solid regions, including type 1 regions bounded by two graphs, type 2 regions bounded between two planes, and type 3 regions. It provides examples of evaluating triple integrals over a tetrahedron and other specific regions.
Presents mathematics and history of spherical trigonometry.
Since most of the figures are not uploaded I recommend to see this presentation on my website at http://www.solohermelin.com.at Math folder.
Please send comments and suggestions for improvements to solo.hermelin@gmail.com. Thanks.
1. A function is a relation where each input is paired with exactly one output.
2. To determine if a relation is a function, use the vertical line test - if any vertical line intersects more than one point, it is not a function.
3. To find the value of a function, substitute the given value for x into the function equation and simplify.
This document defines key concepts related to functions including domain, co-domain, and range. It provides examples of determining the domain and range of various functions. The domain of a function is the set of inputs, the co-domain is the set of all possible outputs, and the range is the set of actual outputs. Examples show how to use inequalities to find the domain by determining when a function gives real values and how to manipulate equations to find the range.
The document introduces three-dimensional coordinate systems and vectors. It discusses how three numbers (coordinates) are needed to locate a point in space, compared to two numbers in a plane. The three perpendicular axes (x, y, z) and octants for locating points are described. Equations representing planes and spheres in three-dimensional space are examined.
THE BINOMIAL THEOREM shows how to calculate a power of a binomial –
(x+ y)n -- without actually multiplying out.
For example, if we actually multiplied out the 4th power of (x + y) --
(x + y)4 = (x + y) (x + y) (x + y) (x + y)
-- then on collecting like terms we would find:
(x + y)4 = x4 + 4x3y + 6x2y2 + 4xy3 + y4 . . . . . (1)
The document discusses functions and their properties. It defines a function as a procedure that assigns each input exactly one output. It provides examples of different ways to define functions, such as with formulas, tables, or graphs. It also discusses the domain and range of functions, and how to evaluate specific functions by replacing the input variable.
The document discusses Theorem 6.7 from page 105 which states that the sum of the angles of a triangle is always 180 degrees. It notes that the total sum of all three angles in any triangle will add up to 180 degrees.
This document discusses properties of logarithms, including:
1) Logarithms with the same base "undo" each other according to the inverse function relationship between logarithms and exponents.
2) Logarithmic expressions can be expanded using properties to write them as sums or differences of individual logarithmic terms, or condensed into a single logarithm.
3) The change of base formula allows converting between logarithms with different bases, with common uses being to change to base 10 or the base of natural logarithms.
Part of Lecture series on EE646, Fuzzy Theory & Applications delivered by me during First Semester of M.Tech. Instrumentation & Control, 2012
Z H College of Engg. & Technology, Aligarh Muslim University, Aligarh
Reference Books:
1. T. J. Ross, "Fuzzy Logic with Engineering Applications", 2/e, John Wiley & Sons,England, 2004.
2. Lee, K. H., "First Course on Fuzzy Theory & Applications", Springer-Verlag,Berlin, Heidelberg, 2005.
3. D. Driankov, H. Hellendoorn, M. Reinfrank, "An Introduction to Fuzzy Control", Narosa, 2012.
Please comment and feel free to ask anything related. Thanks!
This document provides information about the Engineering Mathematics 1 course taught by Dr. Ir. Arman Djohan Diponegoro. It includes details about the class code, credits, schedule, topics to be covered including complex variables and vector analysis. It also outlines the grading breakdown and test schedule. Several concepts from complex numbers are then defined and explained, such as the complex plane, polar coordinates, trigonometric form, and operations like addition, subtraction and multiplication of complex numbers. Examples are provided to demonstrate converting between rectangular and trigonometric forms.
3 d figures, its surface areas and volumesjeevanlata
The document defines and provides formulas for calculating surface areas and volumes of various 3D shapes including cuboids, cubes, cylinders, cones, spheres, and hemispheres. It states that a cuboid is a 3D shape with right angles and equal opposite faces. The surface area of a cuboid is 2(length x breadth + breadth x height + height x length). The volume of a cuboid is length x breadth x height.
The document discusses even, odd, and neither functions. It defines even functions as those where f(-x) = f(x), and odd functions as those where f(-x) = -f(x). Examples are provided of algebraic tests to determine if a function is even, odd, or neither. Students will use these algebraic methods to classify functions according to their symmetry.
1) The document uses mathematical induction to prove several formulas.
2) It demonstrates proofs for formulas like 1 + 3 + 5 + ... + (2n-1) = n^2 and 2 + 4 + ... + 2n = n(n+1).
3) The proofs follow the standard structure of mathematical induction, showing the base case is true and using the induction hypothesis to show if the statement is true for n it is also true for n+1.
Using implicit differentiation we can treat relations which are not quite functions like they were functions. In particular, we can find the slopes of lines tangent to curves which are not graphs of functions.
properties of addition and subtraction of integerssufiyafatima
The document discusses properties of addition and subtraction of integers. It states that integers are closed under addition and subtraction, meaning the sum or difference of two integers is always an integer. For example, 2 + 3 = 5. It also explains that addition is commutative for integers, so changing the order of numbers being added does not change the result. However, subtraction is not commutative, so changing the order of numbers being subtracted can change the result. For example, 23 - (-30) = 53, but (-30) - 23 = -53.
This document provides specifications for Samsung's 128M x 8 bit NAND flash memory chip. It includes the chip's pin configurations, functional block diagram, command set, and electrical characteristics. The chip uses a TSOP1 or FBGA package and has inputs for commands, addresses, and data that are multiplexed through I/O pins. It uses a page/block architecture with pages of 2KB + 64B that are grouped into blocks of 128KB + 4KB. Electrical ratings and operating conditions are provided.
This document provides an overview of various computer hardware components and concepts. It discusses motherboards, CPUs, memory, storage devices, input/output devices, networking, power supplies, troubleshooting techniques, and more. Specific topics covered include different types of motherboards, CPUs, RAM, hard drives, printers, monitors, keyboards, mice, and other common computer parts. It also explains concepts like digital vs analog electronics, binary numbering systems, and computer troubleshooting procedures.
This document discusses arithmetic and geometric progressions. It defines arithmetic and geometric sequences as lists of numbers where each subsequent term is calculated using a common difference or ratio. It provides formulas to calculate the nth term and sum of the first n terms for both progressions. The document also discusses arithmetic and geometric means as the averages between two numbers in an arithmetic or geometric progression.
The document discusses three methods for solving the numeric expression 2(4+3):
1) Using the order of operations (BODMAS/PEMDAS) to evaluate the expression inside the parentheses first before multiplying.
2) Changing multiplication to addition by thinking of it as having "lots of" something.
3) Using the distributive property, where the number outside the parentheses is distributed across each term inside the parentheses.
This document provides information about common plane and 3D figures including their names, formulas for calculating area, perimeter/surface area, and volume. For plane figures it covers square, rectangle, trapezium, circle, and parallelogram. For 3D figures it covers cube, cuboid, cylinder, sphere, and cone. It lists the key formulas for calculating measurements of each shape.
This document provides an overview of triple integrals and their applications. It defines triple integrals as the limit of triple Riemann sums for functions of three variables, analogous to double integrals. Triple integrals can be evaluated over rectangular boxes by expressing them as iterated integrals in any of six orders, as stated by Fubini's theorem. The document also describes how to evaluate triple integrals over more general bounded solid regions, including type 1 regions bounded by two graphs, type 2 regions bounded between two planes, and type 3 regions. It provides examples of evaluating triple integrals over a tetrahedron and other specific regions.
Presents mathematics and history of spherical trigonometry.
Since most of the figures are not uploaded I recommend to see this presentation on my website at http://www.solohermelin.com.at Math folder.
Please send comments and suggestions for improvements to solo.hermelin@gmail.com. Thanks.
1. A function is a relation where each input is paired with exactly one output.
2. To determine if a relation is a function, use the vertical line test - if any vertical line intersects more than one point, it is not a function.
3. To find the value of a function, substitute the given value for x into the function equation and simplify.
This document defines key concepts related to functions including domain, co-domain, and range. It provides examples of determining the domain and range of various functions. The domain of a function is the set of inputs, the co-domain is the set of all possible outputs, and the range is the set of actual outputs. Examples show how to use inequalities to find the domain by determining when a function gives real values and how to manipulate equations to find the range.
The document introduces three-dimensional coordinate systems and vectors. It discusses how three numbers (coordinates) are needed to locate a point in space, compared to two numbers in a plane. The three perpendicular axes (x, y, z) and octants for locating points are described. Equations representing planes and spheres in three-dimensional space are examined.
THE BINOMIAL THEOREM shows how to calculate a power of a binomial –
(x+ y)n -- without actually multiplying out.
For example, if we actually multiplied out the 4th power of (x + y) --
(x + y)4 = (x + y) (x + y) (x + y) (x + y)
-- then on collecting like terms we would find:
(x + y)4 = x4 + 4x3y + 6x2y2 + 4xy3 + y4 . . . . . (1)
The document discusses functions and their properties. It defines a function as a procedure that assigns each input exactly one output. It provides examples of different ways to define functions, such as with formulas, tables, or graphs. It also discusses the domain and range of functions, and how to evaluate specific functions by replacing the input variable.
The document discusses Theorem 6.7 from page 105 which states that the sum of the angles of a triangle is always 180 degrees. It notes that the total sum of all three angles in any triangle will add up to 180 degrees.
This document discusses properties of logarithms, including:
1) Logarithms with the same base "undo" each other according to the inverse function relationship between logarithms and exponents.
2) Logarithmic expressions can be expanded using properties to write them as sums or differences of individual logarithmic terms, or condensed into a single logarithm.
3) The change of base formula allows converting between logarithms with different bases, with common uses being to change to base 10 or the base of natural logarithms.
Part of Lecture series on EE646, Fuzzy Theory & Applications delivered by me during First Semester of M.Tech. Instrumentation & Control, 2012
Z H College of Engg. & Technology, Aligarh Muslim University, Aligarh
Reference Books:
1. T. J. Ross, "Fuzzy Logic with Engineering Applications", 2/e, John Wiley & Sons,England, 2004.
2. Lee, K. H., "First Course on Fuzzy Theory & Applications", Springer-Verlag,Berlin, Heidelberg, 2005.
3. D. Driankov, H. Hellendoorn, M. Reinfrank, "An Introduction to Fuzzy Control", Narosa, 2012.
Please comment and feel free to ask anything related. Thanks!
This document provides information about the Engineering Mathematics 1 course taught by Dr. Ir. Arman Djohan Diponegoro. It includes details about the class code, credits, schedule, topics to be covered including complex variables and vector analysis. It also outlines the grading breakdown and test schedule. Several concepts from complex numbers are then defined and explained, such as the complex plane, polar coordinates, trigonometric form, and operations like addition, subtraction and multiplication of complex numbers. Examples are provided to demonstrate converting between rectangular and trigonometric forms.
3 d figures, its surface areas and volumesjeevanlata
The document defines and provides formulas for calculating surface areas and volumes of various 3D shapes including cuboids, cubes, cylinders, cones, spheres, and hemispheres. It states that a cuboid is a 3D shape with right angles and equal opposite faces. The surface area of a cuboid is 2(length x breadth + breadth x height + height x length). The volume of a cuboid is length x breadth x height.
The document discusses even, odd, and neither functions. It defines even functions as those where f(-x) = f(x), and odd functions as those where f(-x) = -f(x). Examples are provided of algebraic tests to determine if a function is even, odd, or neither. Students will use these algebraic methods to classify functions according to their symmetry.
1) The document uses mathematical induction to prove several formulas.
2) It demonstrates proofs for formulas like 1 + 3 + 5 + ... + (2n-1) = n^2 and 2 + 4 + ... + 2n = n(n+1).
3) The proofs follow the standard structure of mathematical induction, showing the base case is true and using the induction hypothesis to show if the statement is true for n it is also true for n+1.
Using implicit differentiation we can treat relations which are not quite functions like they were functions. In particular, we can find the slopes of lines tangent to curves which are not graphs of functions.
properties of addition and subtraction of integerssufiyafatima
The document discusses properties of addition and subtraction of integers. It states that integers are closed under addition and subtraction, meaning the sum or difference of two integers is always an integer. For example, 2 + 3 = 5. It also explains that addition is commutative for integers, so changing the order of numbers being added does not change the result. However, subtraction is not commutative, so changing the order of numbers being subtracted can change the result. For example, 23 - (-30) = 53, but (-30) - 23 = -53.
This document provides specifications for Samsung's 128M x 8 bit NAND flash memory chip. It includes the chip's pin configurations, functional block diagram, command set, and electrical characteristics. The chip uses a TSOP1 or FBGA package and has inputs for commands, addresses, and data that are multiplexed through I/O pins. It uses a page/block architecture with pages of 2KB + 64B that are grouped into blocks of 128KB + 4KB. Electrical ratings and operating conditions are provided.
This document provides an overview of various computer hardware components and concepts. It discusses motherboards, CPUs, memory, storage devices, input/output devices, networking, power supplies, troubleshooting techniques, and more. Specific topics covered include different types of motherboards, CPUs, RAM, hard drives, printers, monitors, keyboards, mice, and other common computer parts. It also explains concepts like digital vs analog electronics, binary numbering systems, and computer troubleshooting procedures.
This document provides a 3-page overview of a computer mainboard, including:
1. Features like hardware components, BIOS, and package contents
2. Layout and component descriptions
3. Configuration details for CPU, RAM, ports, fans, and jumpers
The document provides a summary of the hardware, licenses, and features of a Data Domain system. It includes:
- Hardware information such as memory, disks, network cards, and enclosure details.
- License keys for shelf capacities in the active and archive tiers, as well as feature licenses for encryption, expanded storage, and secure multi-tenancy.
- Descriptions of the different licenses and what features they enable, such as encryption of the filesystem or sharing the system among multiple tenants.
1) The document describes a virtual terminal system that uses a PC and USB fingerprint scanner instead of a dedicated fingerprint terminal to provide time and attendance management functionality.
2) The virtual terminal software replicates the features of a fingerprint terminal and allows fingerprint registration and authentication through a connected USB scanner. User information and logs can be uploaded and managed through a server software over a TCP/IP network.
3) The virtual terminal system reduces installation costs and provides flexibility to use on small and large scale systems through a combination of virtual and real terminals connected to a central server.
This document provides an overview of microprocessor systems and embedded devices at different levels. It discusses that at the high end, Intel Pentium 4 processors operate at 3.2GHz and consume over 100W, while low-power embedded devices consume as little as 250-300mW. Computer technology is experiencing dramatic changes with processors doubling in speed every 1.5 years, and memory and storage capacities increasing exponentially. Future computers are predicted to have processors operating at 5GHz with 4GB of memory and 2TB of storage. Embedded systems face challenges in power consumption, size, cost, reliability and meeting application-specific requirements.
This document summarizes the evolution of computer motherboards from early processors like the 8086 to later Pentium models. It provides specifications for each board including the processor, manufacturer, memory capacity, and BIOS. It also describes user configurable settings like memory and I/O configurations through jumpers and switches.
STONE Tech is a manufacturer of HMI display modules (Intelligent TFT LCD). We provide LCD modules/LCD Displays, Graphic LCM, smart Display LCD, TFT LCM, Custom LCD Module Display, and LCD panels. china LCD Manufacturers.
This document provides a system report for a Windows XP computer named DUVAN. It details the machine's specifications including operating system, processor, memory, storage, graphics card, sound card, and other hardware. All drivers and devices were found to be working properly with no issues reported from hardware tests.
The document discusses getting started with the Intel Galileo Gen 2 development board. It provides an overview of the board's specifications and input/output pins. It also describes how to set up the Arduino development environment and install the necessary drivers to use the board. Finally, it gives examples of simple Arduino sketches that can be run on the board, including blinking an LED, fading an LED, reading a potentiometer, driving a 7-segment display, and using a push button and LCD screen.
HI-3220 ARINC 429 DATA MANAGEMENT ENGINE
16 x RECEIVERS, 8 x TRANSMITTERS, ADK-3220. Application Development Kit Users Guide and High Density 16Rx / 8Tx or 8Rx / 4Tx ARINC 429 HI-3220 datasheet.
The document introduces the Pro-EC44, a new single or dual loop temperature controller. Key features include a graphic display, USB configuration, data logging, Modbus communications, and support for one or two control loops. It can be configured using intuitive front panel controls or software to easily program multiple units for applications requiring plant-wide temperature control and monitoring.
The document summarizes information about a new packet card for the DCP/TA system, including:
- It will operate in existing DCPs and supports G.711 and G.729 codecs with a maximum of 120 channels per card.
- Each card takes a T1/E1 slot and has 3 Ethernet ports, but only the bottom port will be active.
- Configuration changes are required like adding entries to the TA host file and dcpsrvX.config file.
- Troubleshooting tips provided for startup or audio quality issues.
Technology is constantly changing. New microcontrollers become available every year. The one thing that has stayed the same is the C programming language used to program these microcontrollers. If you would like to learn this standard language to program microcontrollers, then this book is for you!
Arduino is the hardware platform used to teach the C programming language as Arduino boards are available worldwide and contain the popular AVR microcontrollers from Atmel.
The document describes a universal infrared remote reference design using Zilog infrared controllers. It includes an overview of the hardware and firmware, describing the key scanning, programming procedure, and results of operation. Codes for controlling various devices from many brands are stored in the controller's memory as tables in an appendix. The design allows programming the remote to control different devices by selecting the appropriate code number from the tables.
The Z-turn Board is a low-cost linux-ready Single Board Computer built around the Xilinx Zynq-7010 (XC7Z010-1CLG400C) or Zynq-7020 (XC7Z020-1CLG400C) System-on-Chip (SoC) with a dual-core ARM Cortex-A9 processor and FPGA. It has 1GB DDR3 SDRAM and 16MB SPI Flash on board and integrates a set of rich peripherals including UART, USB OTG, Gigabit Ethernet, CAN, HDMI, TF, G-sensor and Temperature sensor. On the rear of the board, there are two 1.27mm pitch 80-pin SMT female connectors to allow the availability of 96 user I/O and configurable as up to 39 LVDS pairs I/O. More information can be found at MYIR's website:
http://www.myirtech.com/list.asp?id=502
The MYC-CZU3EG CPU Module is a powerful MPSoC System-on-Module (SoM) based on Xilinx Zynq UltraScale+ ZU3EG which features a 1.2 GHz quad-core ARM Cortex-A53 64-bit application processor
The document describes the internal architecture of the 89C52 microcontroller. It has the following on-chip facilities: 4k ROM, 128 byte RAM, one USRT, 32 I/O port lines, two 16-bit timers/counters, six interrupt sources, and an on-chip clock oscillator. Other family members have variations like 8k ROM, 256 byte RAM, and an extra timer/counter. The 89C52 architecture includes ports, memory, a CPU, and peripherals that allow it to interface with external devices.
This document describes interfacing an LCD display and 4x4 keypad with a PIC microcontroller. It explains the basics of LCD operation including control lines and data bus. It also explains how a 4x4 matrix keypad works by scanning rows and columns to detect key presses. Programming code is provided to initialize the LCD and keypad interfaces as well as detect and identify keys pressed.
This document provides an overview and specifications for the Atmel AVR XMEGA D4 microcontroller family. It includes descriptions of the microcontroller's features such as flash memory size, SRAM, peripherals, operating voltage and frequency ranges, and packaging options. Typical applications for these microcontrollers are also listed.
Digital Twins Computer Networking Paper Presentation.pptxaryanpankaj78
A Digital Twin in computer networking is a virtual representation of a physical network, used to simulate, analyze, and optimize network performance and reliability. It leverages real-time data to enhance network management, predict issues, and improve decision-making processes.
Build the Next Generation of Apps with the Einstein 1 Platform.
Rejoignez Philippe Ozil pour une session de workshops qui vous guidera à travers les détails de la plateforme Einstein 1, l'importance des données pour la création d'applications d'intelligence artificielle et les différents outils et technologies que Salesforce propose pour vous apporter tous les bénéfices de l'IA.
Comparative analysis between traditional aquaponics and reconstructed aquapon...bijceesjournal
The aquaponic system of planting is a method that does not require soil usage. It is a method that only needs water, fish, lava rocks (a substitute for soil), and plants. Aquaponic systems are sustainable and environmentally friendly. Its use not only helps to plant in small spaces but also helps reduce artificial chemical use and minimizes excess water use, as aquaponics consumes 90% less water than soil-based gardening. The study applied a descriptive and experimental design to assess and compare conventional and reconstructed aquaponic methods for reproducing tomatoes. The researchers created an observation checklist to determine the significant factors of the study. The study aims to determine the significant difference between traditional aquaponics and reconstructed aquaponics systems propagating tomatoes in terms of height, weight, girth, and number of fruits. The reconstructed aquaponics system’s higher growth yield results in a much more nourished crop than the traditional aquaponics system. It is superior in its number of fruits, height, weight, and girth measurement. Moreover, the reconstructed aquaponics system is proven to eliminate all the hindrances present in the traditional aquaponics system, which are overcrowding of fish, algae growth, pest problems, contaminated water, and dead fish.
Software Engineering and Project Management - Software Testing + Agile Method...Prakhyath Rai
Software Testing: A Strategic Approach to Software Testing, Strategic Issues, Test Strategies for Conventional Software, Test Strategies for Object -Oriented Software, Validation Testing, System Testing, The Art of Debugging.
Agile Methodology: Before Agile – Waterfall, Agile Development.
Prediction of Electrical Energy Efficiency Using Information on Consumer's Ac...PriyankaKilaniya
Energy efficiency has been important since the latter part of the last century. The main object of this survey is to determine the energy efficiency knowledge among consumers. Two separate districts in Bangladesh are selected to conduct the survey on households and showrooms about the energy and seller also. The survey uses the data to find some regression equations from which it is easy to predict energy efficiency knowledge. The data is analyzed and calculated based on five important criteria. The initial target was to find some factors that help predict a person's energy efficiency knowledge. From the survey, it is found that the energy efficiency awareness among the people of our country is very low. Relationships between household energy use behaviors are estimated using a unique dataset of about 40 households and 20 showrooms in Bangladesh's Chapainawabganj and Bagerhat districts. Knowledge of energy consumption and energy efficiency technology options is found to be associated with household use of energy conservation practices. Household characteristics also influence household energy use behavior. Younger household cohorts are more likely to adopt energy-efficient technologies and energy conservation practices and place primary importance on energy saving for environmental reasons. Education also influences attitudes toward energy conservation in Bangladesh. Low-education households indicate they primarily save electricity for the environment while high-education households indicate they are motivated by environmental concerns.
Design and optimization of ion propulsion dronebjmsejournal
Electric propulsion technology is widely used in many kinds of vehicles in recent years, and aircrafts are no exception. Technically, UAVs are electrically propelled but tend to produce a significant amount of noise and vibrations. Ion propulsion technology for drones is a potential solution to this problem. Ion propulsion technology is proven to be feasible in the earth’s atmosphere. The study presented in this article shows the design of EHD thrusters and power supply for ion propulsion drones along with performance optimization of high-voltage power supply for endurance in earth’s atmosphere.
VARIABLE FREQUENCY DRIVE. VFDs are widely used in industrial applications for...PIMR BHOPAL
Variable frequency drive .A Variable Frequency Drive (VFD) is an electronic device used to control the speed and torque of an electric motor by varying the frequency and voltage of its power supply. VFDs are widely used in industrial applications for motor control, providing significant energy savings and precise motor operation.
AI for Legal Research with applications, toolsmahaffeycheryld
AI applications in legal research include rapid document analysis, case law review, and statute interpretation. AI-powered tools can sift through vast legal databases to find relevant precedents and citations, enhancing research accuracy and speed. They assist in legal writing by drafting and proofreading documents. Predictive analytics help foresee case outcomes based on historical data, aiding in strategic decision-making. AI also automates routine tasks like contract review and due diligence, freeing up lawyers to focus on complex legal issues. These applications make legal research more efficient, cost-effective, and accessible.
Advanced control scheme of doubly fed induction generator for wind turbine us...IJECEIAES
This paper describes a speed control device for generating electrical energy on an electricity network based on the doubly fed induction generator (DFIG) used for wind power conversion systems. At first, a double-fed induction generator model was constructed. A control law is formulated to govern the flow of energy between the stator of a DFIG and the energy network using three types of controllers: proportional integral (PI), sliding mode controller (SMC) and second order sliding mode controller (SOSMC). Their different results in terms of power reference tracking, reaction to unexpected speed fluctuations, sensitivity to perturbations, and resilience against machine parameter alterations are compared. MATLAB/Simulink was used to conduct the simulations for the preceding study. Multiple simulations have shown very satisfying results, and the investigations demonstrate the efficacy and power-enhancing capabilities of the suggested control system.
Rainfall intensity duration frequency curve statistical analysis and modeling...bijceesjournal
Using data from 41 years in Patna’ India’ the study’s goal is to analyze the trends of how often it rains on a weekly, seasonal, and annual basis (1981−2020). First, utilizing the intensity-duration-frequency (IDF) curve and the relationship by statistically analyzing rainfall’ the historical rainfall data set for Patna’ India’ during a 41 year period (1981−2020), was evaluated for its quality. Changes in the hydrologic cycle as a result of increased greenhouse gas emissions are expected to induce variations in the intensity, length, and frequency of precipitation events. One strategy to lessen vulnerability is to quantify probable changes and adapt to them. Techniques such as log-normal, normal, and Gumbel are used (EV-I). Distributions were created with durations of 1, 2, 3, 6, and 24 h and return times of 2, 5, 10, 25, and 100 years. There were also mathematical correlations discovered between rainfall and recurrence interval.
Findings: Based on findings, the Gumbel approach produced the highest intensity values, whereas the other approaches produced values that were close to each other. The data indicates that 461.9 mm of rain fell during the monsoon season’s 301st week. However, it was found that the 29th week had the greatest average rainfall, 92.6 mm. With 952.6 mm on average, the monsoon season saw the highest rainfall. Calculations revealed that the yearly rainfall averaged 1171.1 mm. Using Weibull’s method, the study was subsequently expanded to examine rainfall distribution at different recurrence intervals of 2, 5, 10, and 25 years. Rainfall and recurrence interval mathematical correlations were also developed. Further regression analysis revealed that short wave irrigation, wind direction, wind speed, pressure, relative humidity, and temperature all had a substantial influence on rainfall.
Originality and value: The results of the rainfall IDF curves can provide useful information to policymakers in making appropriate decisions in managing and minimizing floods in the study area.
2. SHIELD Intelligent 8 Loop FACP
Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
• Listed to LPCB
• 8 x Loops (242) capacity (1936) addressable points
• 140 programmable LED zones
• Maximum 10 Loops Standalone, Modular constructed for future
expansion
• 40 x15 lines LCD Display.
• Up to 999 programmable zones and 140 zone indication
• Auto Programming Day and Night Mode
• Enable and Disable function
• PAS and Acknowledge Function
• Dirty Detector Reporting
• Duplicate Address Checking and Device Mismatch
• Walk Test Function with optional silent mode
SHIELD
3. SHIELD Intelligent 8 Loop FACP
Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
• Start and Stop Function
• Can edit device detailed and programmed
• Day/Night delay time disable
• Programmable form PC or Panel
• History record- almost 2000 event capacity in
non-volatile memory
• Fully simulation of Cause and Effect
• Advanced user friendly programming software including
‘Fuzzy Logic’.
• Networked with all SHIELD Intelligent Fire panels up to 64 Nodes,
• Optional RS 485 mimic and repeater output up 64
• Optional RS 232-USB CRT interface for P-CGS graphic
• Built in Fire Alarm, FPE, Fault , Alarm Router output and
Feedback signal
• Panel Printer included
• Built in Battery charger.
continuation
SHIELD
12. Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
XS1
XS8
XS2
XS3
XS4
XS5
XS11
XS10
XS9
XS6
XS7
XS14
XS13
XS12
COM BOARD
MAIN BOARD
LOOP BOARD
LOOP BOARD
LOOP BOARD
LOOP BOARD
LOOP BOARD
XS15
+5V
GND
TO
MAINBOARD
F7.820.1238V2
24V
GND 5V GND 24V
TX RX
LOOP
01
O+
O-
I+
I-
LOOP
02
O+
O-
I+
I-
LOOP
03
O+
O-
I+
I-
LOOP
04
O+
O-
I+
I-
LOOP
05
O+
O-
I+
I-
LOOP
06
O+
O-
I+
I-
LOOP
07
O+
O-
I+
I-
LOOP
08
O+
O-
I+
I-
LOOP
09
O+
O-
I+
I-
LOOP
10
O+
O-
I+
I-
OUTPUT
TO
SOUNDER
F2
F1
A
B
OUTPUT
TO
FPE
ALARM
ROUTING
FEED
BACK
REPEATER
FAULT
OUTPUT
NO
COM
NC
XT1
XT2
XT3
XT4
XT5
XT6
XT7
XT8
XT9
XT10
XT11
XT12
XT13
XT19
XT14
XT18
+
_
Fitted
470 ohms
+
_
+
_
FPE with
fitted diode
4.7Kohms
EOL
+
+
FPE FPE
Sounder with
built-in diode
Output Device with
fitted diode
+
+
O/P
Sounder with
built-in diode
Output Device with
fitted diode
+
+
O/P
A
B
Output to Repeater or
Mimic Panel
O+
O-
I+
I-
Loop Out
Loop In
LOOP
01
O+
O-
I+
I-
A1
LOOP
10
B1
B2
A2
Network Terminal - Class A
Out to next panel A2
Out to next panel B2
In from next panel B1
In from next panel A1
Out to first device
In from last device
XT1
XT10
O+
O-
I+
I-
A
LOOP
10
B
Network Terminal - Class B
Out to next panel A
Out to next panel B
XT10
No connection
4.7Kohms
EOL
4.7Kohms
EOL
4.7Kohms
EOL
Card Configuration
10 Loops + Repeater
10 Loops + Communication
8 Loops + Communication + Repeater
8 Loops + Communication+ Network
8 Loops + Network + Repeater
6 Loops + Communication + Network + Repeater
Note:
•Com Board (XS8-XS1) – Used only for Repeater/ Mimic Card RB-A8M or Communication Card DB-A8M (USB
and serial connection)
•Communication Card DB-A8M can be placed in any Loop Board using only serial port connection, USB is not
accessible
•Network card should be placed to Loop Board 5 (XS10-XS3) and wired in loop 10 terminal
SHIELD
14. Basic Card Addressing and
Designation
Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
Setting the card address
Numbering sequence, lower card is the
recommended lowest numerical setting.
Set dials on the additional board in
ascending order. Each card must be set
at least one higher digit than the lower
card.
CARD SUM: 03 LOOP SUM: 04 SUM:0012
********************************
LOOP 1: Loop Card, Devices Sum: 003
LOOP 2: Loop Card, Devices Sum: 003
LOOP 3: Loop Card, Devices Sum: 003
LOOP 4: Loop Card, Devices Sum: 003
LOOP 5: Net Card-01, Net Sum: 02
LOOP 6: CRT CARD -01
Press F1 to print LOOP DEVICES info
SHIELD
15. Panel And Card Addressing
Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
*SYSTEM SETUP*
********************************
1.PROGRAMMING
2. LOCAL OUTPUT SET-UP
3. WORKING STATE SET UP
4. COMMISSIONING
FAR: OK FPE: OK OTS: OK 13:01:06
*PROGRAMMING*
********************************
1.DEVICE SET-UP
2 ZONE SET-UP
3. COMMUNICATIONE SET UP
4. DAY/NIGTH TIME SETUP
5. MODIFY PASSWORD SETUP
6. C&E EQUATION SETUP
7. DEVICE TYPE SETUP
FAR: OK FPE: OK OTS: OK 13:01:07
*COMMUNICATION SETUP*
********************************
1. MONITOR INTERFACE
2. NETWORK INTERFACE
FAR: OK FPE: OK OTS: OK 13:01:08
1. Monitor interface (for DB-A8M card)
Please input loop number: (1:10)
Please input panel address: (1-32)
2 Network Interface (for NB-A8M card)
Please Input loop number: (1-10)
Please Input panel address (1-64)
Enter: Received Command : Enable/Disable
Send Command : Enable/Disable
Received Information : Enable/Disable
Send Information : Enable/Disable
Note: The address of the panel is saved in the card
SHIELD
16. Basic loop Terminal
Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
O+
O-
I+
I-
Loop Out
Loop In
LOOP
01
O+
O-
I+
I-
A1
LOOP
10
B1
A2
B2
Network Terminal - Class A
out to next panel A2
out to next panel B2
in from next panel B1
in from next panel A1
Loop Wiring
out to first device
in from last device
XT1
XT10
•Loop Address: 242
•Output Voltage:21-27Vdc
•Output Current: 300mA
•Wiring Topology: Class A or B
•Recommended Cable length: 1200 meters
•Recommended Cable: GST Fire Cable
•Loop protection: Optional loop isolator (C-9503/4)
Connect the loop within the panel as follows: Loop
OUT + to Loop IN+/ Loop OUT- to Loop IN- .
SHIELD
17. Basic Output / Input Terminal
Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
Output Condition
Device
Number
Alarm
(Default)
Disable CE Mode
Delay Time
Program
Stop – via
Silence Button
Alarm
Routing
Routing A 00000083 Immediate Yes No Yes No
Output to
Sounder
Sounder A 00000082 Immediate Yes Yes Yes Yes
Output to
FPE
FPE A 00000081 Immediate Yes Yes No No
Note: For output dry contact use CI-500R (output capacity 5A/220VAC or 24VDC @26mA Alarm Current)
SHIELD
18. Basic Auto-Learn/Registration
Procedures
Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
Turn on the panel and perform an auto learn/registration as follows:
1. The control panel is set in COMMISIONING MODE by default, once it is powered ON, the system
immediately after the start-up will automatically initialize the REGISTRATION process.
2. If the system set to MONITORING MODE change the setting by: (System Setup→ 3 Working State Set-up→
select 1 Commissioning State)
3. For manual registration (System Setup→ 4 Commissioning → select 1 Device Learn)
X
FIRE CONTROL PANEL SHIELD
Wed 13 Jan 2012
Panel Healthy
FAR: OK FPE: OK OTS: OK 13:14:15
*SYSTEM SETUP*
********************************
1.PROGRAMMING
2. LOCAL OUTPUT SET-UP
3. WORKING STATE SET UP
4. COMMISSIONING
FAR: OK FPE: OK OTS: OK 13:01:06
*WORKING STATE SETUP*
********************************
1.COMISSION
2. MONITOR
FAR: OK FPE: OK OTS: OK 13:01:06
SHIELD
19. Basic Auto-Learn/Registration
Procedures
Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
To check the registered devices
1. Press “User Setup”, (Default password) then press Enter
2. Press “Browse Devices”
3. Select the loop number using UP/Down arrow and then press Enter
*USER SET-UP*
********************************
1.BROWSE
2. CLOCK
3. PRINTER SET-UP
4. DELAY MODE SET-UP
5. ACKNOWLEDGE TIMER
6. TEST SET-UP
7. START SET-UP
8. DISABLE/ENABLE
FAR: OK FPE: OK OTS: OK 13:14:15
CARD SUM: 03 LOOP SUM: 04 SUM:0012
********************************
LOOP 1: Loop Card, Devices Sum: 003
LOOP 2: Loop Card, Devices Sum: 003
LOOP 3: Loop Card, Devices Sum: 003
LOOP 4: Loop Card, Devices Sum: 003
LOOP 5: Net Card-01, Net Sum: 02
LOOP 6: CRT CARD -01
→F1 to print LOOP DEVICES info
→F2 –Found devices F3- Missed devices
FAR: OK FPE: OK OTS: OK 13:14:15
Loop01: Loop Card, Devices SUM:003
********************************
D001 Group 001 Loop 1 Lift
Mechanical Room
D002 Zone-001 Loop 1 Optical Smoke
Manager Room
D003 Zone-001 Loop 1 Optical Smoke
Secretary Room
D004 Zone-001 Loop 1 Heat Detector
Pantry
FAR: OK FPE: OK OTS: OK 13:14:15
SHIELD
21. Basic Software Configuration
Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
1. Control Panel Detailed
2. Number of Loop
3. Zone Detailed ( LED and PAS)
4. Device Detailed per Loop (Naming of Repeater/Mimic)
5. Equation (Cause & Effect)
6. Saving Data
7. Download / Upload
SHIELD
22. 1. Control Panel Detailed
Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
Adding Control Panel
1. Click the “FACP Net” icon
2. Right-click “FACP” and select “Add FACP”
•FACP Type: Select the panel part number
•FACP Address: Address of the panel
•FACP Name: File name reference
•Net: Click if the panels are network
SHIELD
24. Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
3. Zone Configuration
Adding a zone
1.Click the “FACP Zone” icon
2.Right-click “Panel that will add zone” and select “Add Zone”
3.Or Click the “New” icon
Note: Max number of zone is 999
Zone ID : Zone number
Zone Mode:
0-Off: Panel display Fire immediately- No Pre-alarm feature
1-Type A: Enable Pre-alarm/ The system shall response to a second alarm from any device in the same zone as the system alarm (Type A)
2-Type B: Enable Pre-alarm/ The system shall response to a second alarm from any device in the same or other zone as the system alarm (Type B)
Zone Sounder Mode
0-Sound By Zone Fire: Alarm the sounder automatically if the fire is on the same zone
Ex: fire in zone 1, all the sounders in zone 1 will alarm
1-On E&C: Activation of Sounder through Equation
Zone Resound Mode
0-No Resound: Sounder will not alarm if new fire from the other zone after being silenced
1-Resound by New Fire: Sounder will alarm if new fire from other zone after being silenced
Zone LED: 1-140 LED
ForeColor: Font Color
BackColor: Text Highlight Color
Description: Zone name (note: 40 Max character)
Example: Zone example
4.To save click the “Save” icon
SHIELD
25. Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
4. Device Detailed
Device Configuration per Loop
1.Click the “FACP Net” icon
2.Click “Panel to be programmed”
3.Click the “Loop 1”
Address: 1-242
Loop Number: Loop Number
Zone: Zone assignment
Device Type: Selection of device type.
Properties: For output- 0-on/off ; 1-continoues
Location: Device location information
Note: character 40 max
Registered: Once the data is uploaded from the
panel, it will indicate TRUE if the particular
device is being found or registered in the panel
otherwise it will indicate False.
4. Click Save icon to save
To configure the USER DEFINE
•Click the “Panel that will configure”
•Click the “Device Type -icons
•The Device Type window will pop-up
•Select the required condition and type new
Device Type name
SHIELD
26. Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
5. Equation ( Cause and Effect )
Configuring the Equation
1. Click the “FACP Net” icon
2. Click “Panel to be programmed”
3. Click the “Equation”
4. To save the equation click “Save New”
5. To modify the equation click “Save
Modify”
6. To save the entire equation click “Save”
Condition: INPUT DEVICES- 8 digits
Effect: OUTPUT DEVICES – 10 digits
Logic: AND Logic (x), OR Logic (+)
Fuzzy Logic: Asterisk (* value 1-9)
Delay Time Ratio: 1:10 seconds
SHIELD
27. Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
5. Equation ( Cause and Effect )
999 242 99 = 999 242 99 99
Zone Address Device Type Zone Address Device Type Delay Time
Condition
001 020 03 meaning Address 20 Optical smoke in Zone 1 (By Point)
001 *** 03 meaning At least 1(any address) Optical smoke in Zone 1 (By Zone)
*** *** 02 meaning At least 1(any address) Heat det. in the entire area (Global)
Effect:
XXX XXX 13 03 means sounder global alarm after 30 seconds (Global)
Sample:
001 *** 11 + 001 *** 03 + 001 *** 02 = 001*** 13 00, *** *** 13 06
SHIELD
28. Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
6. Saving and Restoring Data
Click the “Database” icon
The Database Operation window will pop out
Click “Backup Database” to save the data.
Save the data to the required location
Click “Restore Database” to retrieve the data.
Locate the data save
SHIELD
29. Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
Basic Software Configuration
7. Upload and Download Data
Terminology:
Download: Data transferring from the PC
to the Control Panel
Upload : Data transferring from the Control
Panel to the PC
Warning!! The data must be downloaded/uploaded by
setting such as zone, loop, etc. Do not generally
download/upload the data.
3 important things to note:
1. Registration of RS232 download card (Hardware)
Identify the loop number of the DB-A8M card by pressing the “User Set-up”
Select or press number 1 Browse Devices
Press “System Setup” (No password) Press “Enter”
Press “1 Programming” and then “3 Communication Set-up”
Press “1 Monitor Interface”
Please input loop number: (1:10)
Please input panel address: (1-32)
2. Set Serial Port number (USB Connection-My computer-Properties-Hardware-Device Manger-Port)
3. Matched the address of the control panel “Local Address from the SHIELDDef software “FACP Address”.
To view the control panels address:
(Press “System Setup” 1 Programming3 Communication Set-up monitor or network interface)
Note:
•Com Board (XS8-XS1) – Used only for Repeater/ Mimic Card RB-A8M or Communication Card DB-A8M (USB and serial connection)
•Communication Card DB-A8M can be placed in any Loop Board using only serial port connection, USB is not accessible
SHIELD
31. Basic System Operation
System Menu
Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
SHIELD
32. Basic Keypad Configuration
1. Zone Setup
2. Device Type Setup
3. Point Setup
4. C&E Set-up
Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
SHIELD
33. Zone Setup
*SYSTEM SETUP*
********************************
1.PROGRAMMING
2. LOCAL OUTPUT SET-UP
3. WORKING STATE SET UP
4. COMMISSIONING
FAR: OK FPE: OK OTS: OK 13:01:06
*PROGRAMMING*
********************************
1.DEVICE SET-UP
2 ZONE SET-UP
3. COMMUNICATIONE SET UP
4. DAY/NIGTH TIME SETUP
5. MODIFY PASSWORD SETUP
6. C&E EQUATION SETUP
7. DEVICE TYPE SETUP
FAR: OK FPE: OK OTS: OK 13:01:07
*ZONE SETUP*
ZONE (1-999) : 001
********************************
DEPENDENCY TYPE (0-2) : 0-OFF
SOUNDER MODE (0-1) : 1-ON C&E
RESOUND MODE (0-1) : 1- Resound by New Fire
ZONE LED (1-140) : 001
TEXT (40 Byte) :
GROUND FLOOR
FAR: OK FPE: OK OTS: OK 13:01:08
Dependency Mode:
0-Off: Panel display Fire immediately- No Pre-alarm feature
1-Type A: Enable Pre-alarm/ The system shall response to a second alarm from any device in the same zone as the system alarm
2-Type B: Enable Pre-alarm/ The system shall response to a second alarm from any device in the same or other zone as the system alarm
Zone Sounder Mode
0-Sound By Zone Fire: Alarm the sounder automatically if the fire is on the same zone
Ex: fire in zone 1, all the sounders in zone 1 will alarm
1-On E&C: Activation of Sounder through Equation
Zone Resound Mode
0-No Resound: Sounder will not alarm if new fire from the other zone after being silenced
1-Resound by New Fire: Sounder will alarm if new fire from other zone after being silenced
Zone LED: 1-140 LED
TEXT: Up to 40 characters
Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
SHIELD
34. Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
Device Type Setup
*SYSTEM SETUP*
********************************
1.PROGRAMMING
2. LOCAL OUTPUT SET-UP
3. WORKING STATE SET UP
4. COMMISSIONING
FAR: OK FPE: OK OTS: OK 13:01:06
*PROGRAMMING*
********************************
1.DEVICE SET-UP
2 ZONE SET-UP
3. COMMUNICATIONE SET UP
4. DAY/NIGTH TIME SETUP
5. MODIFY PASSWORD SETUP
6. C&E EQUATION SETUP
7. DEVICE TYPE SETUP
FAR: OK FPE: OK OTS: OK 13:01:07
*DEVICE TYPE LIST*
00: Undefine 01: MultiSensor
02: Heat Detector 03: Optical Smoke
04: User Define 05: Gas Detector
06: Beam Detector 07: Flame detector
08: Conventional P 09: User Define
10: Flow Switch 11: MCP (BG)
12: Sounder Strobe 13: Sounder
14: Flasher 15: LIFT
!Press key [F2] to modify device type
FAR: OK FPE: OK OTS: OK 13:01:07
Device number Condition
1-11 FIRE
12-30 ACTION
31-40 FAULT
41-50 SUPERVISORY
51-65 ACTION
66-99 PANEL
SHIELD
35. Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
Device Setup
*SYSTEM SETUP*
********************************
1.PROGRAMMING
2. LOCAL OUTPUT SET-UP
3. WORKING STATE SET UP
4. COMMISSIONING
FAR: OK FPE: OK OTS: OK 13:01:06
*PROGRAMMING*
********************************
1.DEVICE SET-UP
2 ZONE SET-UP
3. COMMUNICATIONE SET UP
4. DAY/NIGTH TIME SETUP
5. MODIFY PASSWORD SETUP
6. C&E EQUATION SETUP
7. DEVICE TYPE SETUP
FAR: OK FPE: OK OTS: OK 13:01:07
*DEVICE SETUP*
Loop: 01 Address(1-242) : 001
********************************
ZONE (I-999) : 001
DEVICE TYPE: 03- Optical Smoke
ATTRIBUTE (1-6) : 6
TEXT (40 Byte) :
MANAGER ROOM
FAR: OK FPE: OK OTS: OK 13:01:08
Zone: Zone assignment
Device Type: Selection of device type.
Attribute: Detector sensitivity/For output signal - 0-on/off ; 1-continoues
Location: Device location information , max 40 characters
SHIELD
36. Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
Equation Setup
*PROGRAMMING*
********************************
1.DEVICE SET-UP
2 ZONE SET-UP
3. COMMUNICATIONE SET UP
4. DAY/NIGTH TIME SETUP
5. MODIFY PASSWORD SETUP
6. C&E EQUATION SETUP
7. DEVICE TYPE SETUP
FAR: OK FPE: OK OTS: OK 13:01:07
CREATE C&E
********************************
C&E Quantity:001
N0.002
001***02+001***03= 001***1300 001***1200
FAR: OK FPE: OK OTS: OK 13:01:08
*C&E EQUATION SETUP*
********************************
1.CREATE
2 MODIFY
3. DELETE – (DELETE ONE BY ONE)
4. INITIALIZATION - (DELETE ALL )
FAR: OK FPE: OK OTS: OK 13:01:07
NOTE:
Condition: INPUT DEVICES- 8 digits
Effect: OUTPUT DEVICES – 10 digits
Delay Time Ratio: 1:10 seconds
Number Arrangement:
999 242 99 = 999 242 99 99
Zone Address Device Type Zone Address Device Type Delay Time
SHIELD
37. Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
Equation Setup
Types of logic
Condition:
001 020 03 meaning Address 20 Optical smoke in Zone 1 (By Point)
001 *** 03 meaning At least 1(any address) Optical smoke in Zone 1 (By Zone)
*** *** 02 meaning At least 1(any address) Heat det. in the entire area (Global)
Effect:
XXX XXX 13 03 means sounder global alarm after 30 seconds (Global)
Sample:
001 *** 11 + 001 *** 03 + 001 *** 02 = 001*** 13 00, *** *** 13 06
Note:
Logic: AND Logic (x), OR Logic (+)
Fuzzy Logic: Asterisk (* value 1-9)
SHIELD
39. Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
Device Learn
*SYSTEM SETUP*
********************************
1.PROGRAMMING
2. LOCAL OUTPUT SET-UP
3. WORKING STATE SET UP
4. COMMISSIONING
FAR: OK FPE: OK OTS: OK 13:01:06
*PROGRAMMING*
********************************
1.DEVICE LEARN
2 DUPLICATED ADDRESS CHECK
3. MODIFY ADDRESS
4. MODIFY DEVICE SENSITIVITY
5. COMMISSION IN ANALOG MODE
6. COMMISSION IN DIGITAL MODE
7. SYSTEM INITIALIZATION
FAR: OK FPE: OK OTS: OK 13:01:07
REGISTERING ACTIVE EQUIPMENT
PLEASE WAIT………
FAR: OK FPE: OK OTS: OK 13:01:07
Note:
The panel must be set to “Commissioning Mode”
SHIELD
40. Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
Duplicate Check
*SYSTEM SETUP*
********************************
1.PROGRAMMING
2. LOCAL OUTPUT SET-UP
3. WORKING STATE SET UP
4. COMMISSIONING
FAR: OK FPE: OK OTS: OK 13:01:06
*PROGRAMMING*
********************************
1.DEVICE LEARN
2 DUPLICATED ADDRESS CHECK
3. MODIFY ADDRESS
4. MODIFY DEVICE SENSITIVITY
5. COMMISSION IN ANALOG MODE
6. COMMISSION IN DIGITAL MODE
7. SYSTEM INITIALIZATION
FAR: OK FPE: OK OTS: OK 13:01:07
DUPLICATED ADDRESS CHECKING
Please wait……
Press [Cancel] to Exit!
FAR: OK FPE: OK OTS: OK 13:01:07
Note! to access into Duplicated Check:
1.The panel must be set to “Commissioning Mode”
2. The system must initialize to “Digital Mode”
To find out the duplicated address:
User Setup→1 Browse→4 Browse Duplicated Address
Enter the loop which have duplicated addresses to view
the addresses
DUPLICATED ADDRESS CHECKE OK
Duplicated Address Sum: 001
FAR: OK FPE: OK OTS: OK 13:01:07
CARD SUM: 03 LOOP SUM: 04 SUM:0012
********************************
LOOP 1: Loop Card, Dupli. Add. Sum : 000
LOOP 2: Loop Card, Dupli. Add. Sum : 001
LOOP 3: Loop Card, Dupli. Add. Sum : 000
LOOP 4: Loop Card, Dupli. Add. Sum : 000
LOOP 5: Net Card-01, Net Sum: 02
LOOP 6: CRT CARD -01
→F1 to print LOOP DEVICES info
→F2 –Found devices F3- Missed devices
FAR: OK FPE: OK OTS: OK 13:14:15
SHIELD
41. Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
Modify Address
*SYSTEM SETUP*
********************************
1.PROGRAMMING
2. LOCAL OUTPUT SET-UP
3. WORKING STATE SET UP
4. COMMISSIONING
FAR: OK FPE: OK OTS: OK 13:01:06
*PROGRAMMING*
********************************
1.DEVICE LEARN
2 DUPLICATED ADDRESS CHECK
3. MODIFY ADDRESS
4. MODIFY DEVICE SENSITIVITY
5. COMMISSION IN ANALOG MODE
6. COMMISSION IN DIGITAL MODE
7. SYSTEM INITIALIZATION
FAR: OK FPE: OK OTS: OK 13:01:07
Note:
The panel must be set to “Commissioning Mode”
To change the address.
1.Enter the loop number and address you wish to change.
2.Type the new address into “NEW CODE” then Enter.
*MODIFY ADDRESS*
Loop: 01 Address(1-242) : 001
********************************
USER CODE : 00100115
SERIAL NO.: 0000BB40
NEW CODE: 002
FAR: OK FPE: OK OTS: OK 13:01:08
SHIELD
42. Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
Modify Device Sensitivity
*SYSTEM SETUP*
********************************
1.PROGRAMMING
2. LOCAL OUTPUT SET-UP
3. WORKING STATE SET UP
4. COMMISSIONING
FAR: OK FPE: OK OTS: OK 13:01:06
*PROGRAMMING*
********************************
1.DEVICE LEARN
2 DUPLICATED ADDRESS CHECK
3. MODIFY ADDRESS
4. MODIFY DEVICE SENSITIVITY
5. COMMISSION IN ANALOG MODE
6. COMMISSION IN DIGITAL MODE
7. SYSTEM INITIALIZATION
FAR: OK FPE: OK OTS: OK 13:01:07
Note:
The panel must be set to “Commissioning Mode”
To change the detector sensitivity.
1.Enter the loop number and address you wish to change.
2.Type the sensitivity into “NEW SENSITIVITY” then Enter.
3 LEVELS OF SENSITIVITY
LEVEL 1: HIGHEST SENSITIVITY
LEVEL 2: STANDARD SENSITIVITY
LEVEL 3: LOWEST SENSITIVITY
LEVEL 4: FOR FUTURE USE
LEVEL 5: FOR FUTURE USE
LEVEL 6: FOR FUTURE USE
*MODIFY DEVICE SENSITIVITY*
Loop: 01 Address(1-242) : 001
********************************
USER CODE : 00100115
DEVICE TYPE: MULTISENSOR
SENSITIVITY: 1- SENSITIVITY 1
NEW SENSITIVITY: 0
FAR: OK FPE: OK OTS: OK 13:01:08
SHIELD
43. Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
Commission in Analog/Digital
Mode
*SYSTEM SETUP*
********************************
1.PROGRAMMING
2. LOCAL OUTPUT SET-UP
3. WORKING STATE SET UP
4. COMMISSIONING
FAR: OK FPE: OK OTS: OK 13:01:06
*PROGRAMMING*
********************************
1.DEVICE LEARN
2 DUPLICATED ADDRESS CHECK
3. MODIFY ADDRESS
4. MODIFY DEVICE SENSITIVITY
5. COMMISSION IN ANALOG MODE
6. COMMISSION IN DIGITAL MODE
7. SYSTEM INITIALIZATION
FAR: OK FPE: OK OTS: OK 13:01:07
Note:
The panel must be set to “Commissioning Mode”
Commission to Analog mode:
Normal Status: Range 450 to 650
Alarm Status: Range 900 to 1200
Fault Status: Range 1 to 120
Commission to Digital Mode: For future use
*PROGRAMMING*
********************************
1.DEVICE LEARN
2 DUPLICATED ADDRESS CHECK
3. MODIFY ADDRESS
4. MODIFY DEVICE SENSITIVITY
5. COMMISSION IN ANALOG MODE
6. COMMISSION IN DIGITAL MODE
7. SYSTEM INITIALIZATION
FAR: OK FPE: OK OTS: OK 13:01:07
SHIELD
44. Commissioning
►
Keypad Configuration
►
Software Configuration
►
Operation ►
Initialization Mode
*SYSTEM SETUP*
********************************
1.PROGRAMMING
2. LOCAL OUTPUT SET-UP
3. WORKING STATE SET UP
4. COMMISSIONING
FAR: OK FPE: OK OTS: OK 13:01:06
*PROGRAMMING*
********************************
1.DEVICE LEARN
2 DUPLICATED ADDRESS CHECK
3. MODIFY ADDRESS
4. MODIFY DEVICE SENSITIVITY
5. COMMISSION IN ANALOG MODE
6. COMMISSION IN DIGITAL MODE
7. SYSTEM INITIALIZATION
FAR: OK FPE: OK OTS: OK 13:01:07
Note:
1.The panel must be set to “Commissioning Mode”
2. Required Initialization password:_______________
Detector: Indicate the current mode
Digital mode : to have access in the following
1. Duplicated Address Check
2. Modify Address
3. Modify Device Sensitivity
Analog mode: Default mode and must be used as the working mode
Initialize System: To reset the main control card – this will delete the configuration of Zone LED, Equation and
Device type list.
Warning!! Make sure you have the back up data base
Hide Sounder Plant Item – if you wish not to shown the active sounders
Detector: Analog Mode
Press [1] Initialize detector in digital mode
Press [2] Initialize detector in analog mode
Press [3] To Initialize the system
Press [4] To disable the battery resistance
Press [5] To hide sounder plant item
FAR: OK FPE: OK OTS: OK 13:01:07
SHIELD
46. Commissioning
►
Software Configuration
►
Basic System Operation
1. Browse
2. Delay Mode Setup
3. PAS – Positive Alarm Sequence
4. Test Setup
5. Start and Stop
6. Disable/Enable
Keypad Configuration
►
Operation ►
SHIELD
47. Commissioning
►
Software Configuration
►
Browse
*USER SETUP*
********************************
1.BROWSE
2. CLOCK
3. PRINTER SETUP
4. DELAY MODE
5. ACKNOWLEDGE TIMER
6. TEST SETUP
7. START/STOP DEVICE
8. DISABLE/ENABLE
FAR: OK FPE: OK OTS: OK 13:01:06
*BROWSE*
********************************
1.BROWSE DEVICES
2 BROWSE ZONES
3.BROWSE GROUPS
4.BROWSE DUPLICATED ADDRESS
5.BROWSE PANEL STATUS
6.BROWSE C&E EQUATION
7. HISTORY LOG
FAR: OK FPE: OK OTS: OK 13:01:07
1 Browse Devices: View the number of devices per loop and detailed provided with each device
2 Browse Zones: View the total number of Input devices per zone
3 Browse Groups: View the total number of Output devices per group (Zone)
4 Browse Duplicated Address : View the repeated address in a loop
5 Browse Panel Status: View the panel configuration and version
6 Browse C&E Equation: View configured equation
7 History LOG:
1 Fire History
2 Common History
3 Initialization
Keypad Configuration
►
Operation ►
SHIELD
48. Commissioning
►
Software Configuration
►
Delayed Mode Setup
*USER SETUP*
********************************
1.BROWSE
2. CLOCK
3. PRINTER SETUP
4. DELAY MODE
5. ACKNOWLEDGE TIMER`
6. TEST SETUP
7. START/STOP DEVICE
8. DISABLE/ENABLE
FAR: OK FPE: OK OTS: OK 13:01:06
*DELAY MODE SETUP*
********************************
1.ENABLE
2 DISABLE
FAR: OK FPE: OK OTS: OK 13:01:07
4 DELAY MODE SETUP Commission or Monitor Mode
1 Disable - No output delay
2 Enable - Enable the équations delay time
Note: The Delay Mode LED will turn ON
Setting required to enabling the delay outputs based on the configured C&E equation:
•Enable the delay command form DELAY MODE SETUP
•Configured the system “DAY TIME” form DAY/NIGTH SETUP
•Configured the zone mode parameter into 1- on C&E from the ZONE SETUP
Keypad Configuration
►
Operation ►
SHIELD
49. Commissioning
►
Software Configuration
►
PAS Setup
*USER SETUP*
********************************
1.BROWSE
2. CLOCK
3. PRINTER SETUP
4. DELAY MODE
5. ACKNOWLEDGE TIMER
6. TEST SETUP
7. START/STOP DEVICE
8. DISABLE/ENABLE
FAR: OK FPE: OK OTS: OK 13:01:06
*ACKNOWLEDGE TIMER*
********************************
1.Please input the Pre-Alarm ACK time:
Phase 1 (Default 30S) : [00] M - [30] S
2.Please input the Pre-Alarm Verify time:
Phase 2 (Default 2M) : [02] M - [00] S
FAR: OK FPE: OK OTS: OK 13:01:07
Dependencies on more than one alarm signal – Type A & B (EN54 P2-7.12)
Day Mode
*Pre-alarm Window: programmable from 1 sec. to 30 min. A distinctive pre-alarm indication shall be displayed.
*Alarm Verification window: programmable from 1 sec. to 30 min.
The system shall response to a second alarm from any device in the same zone as the system alarm (Type A)
The system shall response to a second alarm from any device in the same or different zone as the system alarm (Type B)
Night Mode (Default setting)
*Pre-alarm Window: preprogrammed 30 min. Auto-reset the Alarm in the Panel after 30 min (Type A)
*Pre-alarm Window: preprogrammed 5 min. Auto-reset the Alarm in the Panel after 5 min (Type B)
The system shall response to a second alarm from any device in the same zone as the system alarm (Type A)
The system shall response to a second alarm from any device in the same or different zone as the system alarm (Type B)
Keypad Configuration
►
Operation ►
SHIELD
50. Commissioning
►
Software Configuration
►
Test Setup
*USER SETUP*
********************************
1.BROWSE
2. CLOCK
3. PRINTER SETUP
4. DELAY MODE
5. ACKNOWLEDGE TIMER
6. TEST SETUP
7. START/STOP DEVICE
8. DISABLE/ENABLE
FAR: OK FPE: OK OTS: OK 13:01:06
*TEST SETUP*
********************************
1.LED BUZZER TEST
2 LOCAL OUTPUT TEST
3. SETUP TEST ZONE
4. CANCEL TEST ZONE
FAR: OK FPE: OK OTS: OK 13:01:07
TEST SETUP Commission or Monitor Mode
1 LED Buzzer Test – Test all the LED and Buzzer
2 Local Output Test – To test the 3 on board outputs
1 Output to Sounder Test (OTS)
2 Output to F.P.E. (FPE)
3 Alarm Routing Test (FAR)
3 Setup Test Zone
Input test zone : (1-999)
Input test mode : (0-1)
0-Without sounder
1-With sounder – Automatic Stop after 10 seconds
4 Cancel Test Zone
1 Cancel One Test Zone
2 Cancel All Test Zone
Keypad Configuration
►
Operation ►
SHIELD
51. Commissioning
►
Software Configuration
►
Start/Stop Setup
*USER SETUP*
********************************
1.BROWSE
2. CLOCK
3. PRINTER SETUP
4. DELAY MODE
5. ACKNOWLEDGE TIMER
6. TEST SETUP
7. START/STOP DEVICE
8. DISABLE/ENABLE
FAR: OK FPE: OK OTS: OK 13:01:06
*START/STOP DEVICE*
********************************
1.START DEVICE
2 STOP DEVICE
FAR: OK FPE: OK OTS: OK 13:01:07
*START/STOP DEVICE*
********************************
1.START DEVICE
2 STOP DEVICE
START→
ZONE: 000 DEV: 000 TYPE: 00-Un-define
FAR: OK FPE: OK OTS: OK 13:01:07
Keypad Configuration
►
Operation ►
Note: Input the device code
Zone
Device Address
Device Type
SHIELD
52. Commissioning
►
Software Configuration
►
Disable/Enable
*USER SETUP*
********************************
1.BROWSE
2. CLOCK
3. PRINTER SETUP
4. DELAY MODE
5. ACKNOWLEDGE TIMER
6. TEST SETUP
7. START/STOP DEVICE
8. DISABLE/ENABLE
FAR: OK FPE: OK OTS: OK 13:01:06
*DISABLE/ENABLE*
********************************
1.DIS/ENABLE DEVICE-BY CODE
2 DIS/ENABLE DEVICE –BY ADDRESS
3. DIS/ENABLE ZONE
4. DIS/ENABLE SOUNDER
FAR: OK FPE: OK OTS: OK 13:01:07
DISABLE/ENABLE Commission or Monitor Mode
1 Dis/Enable Devices – By Code
1 Disable Device
2 Enable Device
2 Dis/Enable Device – By Address
1 Disable Device
2 Enable Device
3 Dis/Enable Zone
1 Disable Zone
2 Enable Zone
4 Disable/Enable Sounder
1 Disable Sounder
2 Enable Sounder
Keypad Configuration
►
Operation ►
SHIELD