Poli Sekayu elektro Final

Lab. Listrik dan Elektronika Dasar PT. Buana Prima Raya 1

LABORATORY SPECIFICATIONBASIC ELECTRIC AND ELECTRONICPOLITEKNIK SEKAYU TAHUN 2009

NO MATERIAL NAME SPESIFICATION UNIT VOL

A FEATURES

• Multimedia-based self-study course• Course structure: Training objectives/content, Hardware & software

description, Basic • Experiment and training platform is computer-based vocational and

advanced professional training in the areas of electrical engineering and electronics.

• The system combines theory and practice resulting in a highly efficient and effective learning environment with multimedia diversity.

• Media : Practical experiments, Animations, e-learning, Network or stand-alone• Metode : Standard class work, Practical, hands-on lab work, Self-study• Laboratorium equipment system, consist of :

Intellegent Interface Device incl. virtual instrument softwareExperiment BayExperiment Card incl. application softwareAssecories Supporting systemTrainning Facility

• Using blended learning training system• Curriculums Structure, Training / Practice & Jobsheet program, job sheet list related to training / practice activity• Laboratory equipments & facilities layout• TOT for laboratory instructor• 1 year warranty service & spare part

B Laboratory Equipment

B.1 Intelligent Interface The intelligent interface is central unit of blended learning training system and provides the BH 11 Lucas Nuelle ninputs, outputs, relays, and measuring equipment necessary for experiments. SO4203-2AOperation and adjustment of the hardware and real-time measurements in actual experimenter are performed using virtual instruments . The Virtual instrument are provided with the virtual instruments '-starter package or the optional software. It needed to operate this system.

Spesification :• Housing : Material ABS, dimensions : 28 cm x 18 cm x 9 cm, weight 1.2 Kg• Processor : 32-bit processor with storage memory for measurements, clock

frequency 20 MHz, 256 KB RAM, 256 KB FLASH• Input /outputs : 34 2-mm sockets, Analog signals also via 3 BNC sockets, Standard

power supply unit via 8-pin DIN socket and 6-pin DIN socket, Serial interface via 8-pin SUB-D socket, USB interface, 96-pin terminal strip, female, for conecting experimenter

MERK MODEL

Basic Electric and Electronics Laboratory


• High speed analog out put : high-speed analog output for periodic or single output freely , output impedance : 50 Ω (max. ±200 mA)

• Analog power supply unit outputs :3 analog outputs for periodic or single output of freely programmable voltages. Intended primary as adjustable DC, AC or 3 phase power supply unit, output voltages : ± 20 V DC or 14 V RMS, output current max. : 1 A DC or 2 A AC (total curent), frequency range : 0…….150 Hz

• Analog inputs : 2 high speed differential measurement inputs, input sockets : A dan B input impedance diff. : 1 MΩ || 30 pF, maximum voltage diff. : 100 V, memory : 2 x 32 K

• Digital outputs/digital signal generator: 16 digital outputs for control or as programmable digital source for testing digital circuits, 16 outputs, output votage : TTL/CMOS protected with 240 Ω

• Output current max. : 3 mA with respect to GND,maximum voltage : -15 V-15 V memory : 2K x 16-bit

• Relays : 8 available relays for use as a keyboard operated switch or fault• Interfaces : USB, serial 9600 baud, 8 bit, 1 stop bit, no parity• Software : using HTML, including the following virtual instruments, 2 x True RMS

multimeters, 8 x Relays, 1 x Multimeters, 1 x 2-channel storage oscilloscope: 22 time ranges• 1 x Function generator: 0.5 Hz - 1MHz, 0-10 V, sine wave, square wave, triangular wave,

1 x Arbitrary generator, 1x Pulse generator, 16x Digital outputs, 16x digital inputs, 16x digital input/outputs, 1x Three-phase power supply 0-150 Hz, 0-14 Vrms, 2 A, 1x Variable DC powersupply 3x (-20 V-+20 V), 2 A, 1x Three-phase power supply also featuring variable phase shift and clock rate

• Supplied Includes: 1-ph Power supply, Mains lead, USB cable, CD with basic softwareOperating manual

B.2 Experiment Bay supply the fixed or variable wit experiment voltages and contain an infrared BH 22 Lucas Nuelleinterface. The intelegent interface and experimenter and the experiment cards aare connected SO4203-2Bto each other via a bus (96-pin connector). Th experiment bay use to :• To accommodate experiment cards• Safe removal of experiment cards• Bus connector for experiment cards• Provision of fixed and variable system voltage outputs via sockets (9 sockets)

Spesification :• Housing : Material ABS, dimensions : 28 cm x 18 cm x 9 cm, weight 0.6 Kg• Input and outputs :8 each to sockets, 1 DIN socket, 8pin for connecting the standard power

supply unit, 96-pin VG terminal, male, for connection to the interface, 96-pin VG terminal, female, for connection to the experiment card 96-pin VG terminal, male, for connection to the other experimenters infrared interface, Holder and connection for experiment card, Docking station for multimeter

3

familiarised with the principles, limitations, properties and basic circuits for various semiconductor components and utilise them in various applications. The students are familiarised with measuring instruments including the multimeter and the oscilloscope. They are made familiar with the basic circuitry, terminology and laws of electrical engineering by way of making their own voltage and current measurements. The experiment card courses consist of :

B3.1 1. Measuring Electrical Variables Course SET 6 Lucas NuelleIncludes: SO4204-8A

Experiment Bay (cascadable) to connect with Intelligent interface

Experiment Card incl. application software

This experiment system there is a broad spectrum of multimedia courses available in areas of fundamentals of electrical engineering and modern electronics. Students taking the course are

· 1 experiment card with components for digital and analog measuring current and


voltage including an analogue galvanometer

The course provides a general summary of measuring techniques both classic and modern that are used to measure electrical quantities. This includes explanations of all the relevant theory and measuring principles and is demonstrated in illuminating and well-tested experiments.

Course contents:

B3.2 2. DC technology Course SET 6 Lucas NuelleIncludes: SO4204-4D

resistors

Course contents:

PTC thermistors, VDRs)

· 1 experiment card with components for Power, cos f and frequency measurement· CD-ROM with browser and course software

· Understanding how galvanometers work· Distinguishing between deflection and bridge measuring methods· The difference between analog and digital measurements· The difference between moving iron and moving coil galvanometers· How electrodynamic galvanometers work· Altering the measuring range for measurements of current and voltage· Principles for measuring power· Measurement of apparent, reactive and active power· Principles for measuring the power factor· Measuring power factors· Understanding how electrical work is measured· Measuring electrical work· Understanding how frequency is measured· Measuring frequency· Course duration : 10 h approx

· 1 Experiment card with various resistor circuits, capacitor and coil· 1 Experiment card with voltage divider circuits· 1 Experiment card with circuits for studying temperature, light and voltage-dependent

· CD-ROM with course software

· Examples of the use of electricity · Introduction to the Bohr model of the atom· Electric charge and electric fields· Differences between conductors, insulators and semiconductors· Familiarisation with the terms current, voltage and resistance· Investigation of a simple electrical circuit with a lamp· Different types of DC sources· Measurement using voltmeters and ammeters· Colour coding and design of resistors· Experimental verification of Ohm's law· Experimental verification of Kirchhoff's laws· Measurements on resistances in series and parallel· Investigation of circuits with resistors in mixed series and parallel connection· Measurements on voltage divider circuits with fixed/variable resistors· Measurements on bridge circuits· Power measurements in DC circuits· Investigation of the in-circuit response of variable resistors (LDRs (photocells), NTC and

· Measurement and interpretation of variable resistor characteristics (LDR, NTC, PTC, VDR)· Measurements on coils and capacitors in a DC circuit


B3.3 3. AC technology Course SET 6 Lucas NuelleIncludes: SO4204-4F

Course contents:

inductive reactance

wave voltages

resonant circuits

measurements

B3.4 4. Electrical network analysis Course SET 4 Lucas NuelleIncludes: SO4204-4C

Course contents:

· Fault simulation (9 simulated faults activated by relay)· Course duration 8 h approx. (fault finding 1.5 h approx.)

· 1 Experiment card with R, L, C passive components for combination using 2-mm sockets· 1 Experiment card with RLC resonant circuits, 1 circuit tunable· 1 Experiment card with 1 power transformer, 1 repeater transformer and load circuits· CD-ROM with browser and course software

· The distinction between DC and AC variables· Characteristics of sinusoidal signals· RMS values of various periodic signals· Using vector diagrams to depict sinusoidal signals· Using vector diagrams for computation· Introduction to characteristic parameters for capacitors and inductors· How capacitors and coils store energy· Determining the capacitance of capacitors by measurement · Determining the inductance of coils by measurement· Introduction to the term reactance and the difference between capacitive reactance and

· Determining the reactance of coils and capacitors by experiment· Investigating the AC-response of RC and RL voltage divider circuits· Investigating the frequency response of simple filter circuits for alternating and square-

· How electrical resonant circuits work· Introduction to the terms resonance, quality Q, bandwidth and critical frequency of

· Measuring the frequency response of series and parallel resonant circuits· Tuning a parallel resonant circuit with a varicap diode· Explanation of the terms active, reactive and apparent power· Investigating response of transformers to loads: loaded, unloaded and short-circuit

· Identifying the typical areas of application for power and repeater transformers· Measurement and analysis of the frequency response of power transformers· Investigating the frequency response of repeater transformers· Measurement and analysis of the frequency response of repeater transformers· Fault simulation (4 simulated faults activated by relay)· Course duration 8 h approx. (fault finding 1 h approx.)

· 1 Experiment card with connector panel for setting up resistor networks· 2 Constant current and 2 constant voltage sources· 15 Plug-in resistors on card· CD-ROM with browser and course software

· Introduction to basic equations used in electrical networks· Applying Kirchhoff's equations to a resistor network· Analysing resistor networks using Kirchhoff's equations· Power matching in resistor circuits· Conversion of electrical networks(star-delta conversion)· Introduction to superposition theorem and its application


B3.5 5. Three-phase technology Course SET 4 Lucas NuelleIncludes: SO4204-4H

resistive and capacitive loads

Course contents:

effect of breaks in the neutral line

B3.6 6. Magnetism/Electromagnetism Course SET 4 Lucas NuelleIncludes: SO4204-4A

Course contents:

and field intensity

control circuits with latching, Hall sensors

· Simplification of resistor networks using Thevenin's theorem· Simplification of resistor networks using Norton's theorem· Simplification of resistor networks with 2 sources using Millman's theorem· Thevenin-Norton equivalencies· Analysing resistor networks using the loop or mesh current method· Analysing resistor networks using the node voltage method· Course duration: 5 h approx.

· 1 Experiment card with 1 circuit in star configuration and 1 in delta configuration plus

· CD-ROM with browser and course software

· Familiarisation with terms used in three-phase systems· Measurement of phase and line quantities in three-phase networks· Determining and identifying laws relating phase voltages by measurement· Investigating resistive and capacitive loads in star and delta circuits· Determining phase shift between phase voltages· Measurement of compensating currents in neutral conductors and explanation of the

· Current and voltage measurements for symmetrical and asymmetrical loads· Measurement of power with a three-phase load· Course duration 2 h approx.

· 1 Experiment card with 7 specific circuits· Transformer with removable iron core· Compass needle for investigating magnetic fields· Electromagnetic components: reed switches, Hall switches and relays· CD-ROM with browser and course software

· Explanation of the phenomenon of magnetism· Identification of magnetic materials· Listing examples for the use of magnetic materials in electrical engineering· Introduction to and explanation of the terms magnetic poles, magnetic fields, field lines

· Investigating the magnetic field of a current-carrying conductor· Investigating the magnetic field of a coil (with air, with iron core)· Introduction to and explanation of the term electromagnetic induction· Investigating the switch-on and switch-off response of an inductor· Lorentz force· Design and function of a transformer· Investigating the effect of an iron core on the transmission response of a transformer · Determining the transmission ratio of a transformer by measurement· Measuring the response of a transformer to various loads· Design of electromagnetic components: relays, reed switches· Experimental demonstration of the function of relays and reed switches· Experimental investigation of application circuits using electromagnetic components:

· Course duration 4 h approx.


B3.7 7. DC machines Course SET 4 Lucas NuelleIncludes: SO4204-7S

voltage source, starting and load resistors

Course contents:

and carbon

and exciter impedances

shunt and compound windings

by means of armature and field resistors

semiconductor sensor

B3.8 8. Asynchronous machines Course SET 4 Lucas NuelleIncludes: SO4204-7T

temperature sensor with constant current source

Course contents:

of a rotating magnetic field in the stator

factor, pole-pairs, torque, speed and slip

· 1 Experiment card with open, 2-pole stator and 2 exciter windings, temperature sensor with

· Rotor with adjustable brushes· Stroboscope with extra-bright LED· CD-ROM with browser and course software

· Identifying the most common applications for DC machines· Explanation of electromagnetic induction and the Lorentz force· Explanation of design and function of commutated machines (DC machines)· Introduction to the key components of commutated machines, brushes, stator, commutator

· Measurement of current and voltage in armature and exciter and determining the armature

· Interpreting a rating plate· Introduction to circuit diagrams and characteristics for various types of connection: series,

· Connection and operation of DC machines in various operating modes· Speed measurement using a stroboscope· Introduction to various types of speed regulation and reversal: field weakening, modification

· Experimental investigation of various methods for controlling speed and direction of rotation· Connection and operation of commutated machines with AC voltages: universal motors· Introduction to methods of braking DC machines· Measurement of current and voltage when braking DC machines· Explain the importance of temperature monitoring for electrical machines· Temperature measurement in the exciter winding when a machine is running using a

· Course duration. 5.5 h approx.

· 1 Experiment card with stator and three-phase winding, run-up and operating capacitor and

· 3 Rotors: squirrel-cage, permanent-magnet, rotor with open winding· CD-ROM with browser and course software

· Identifying the most common applications of rotating field machines· Explanation of the principles of electromagnetic induction· Explanation of the design and function of rotating field machines· Explanation of the differences between motor and generator operation· Introduction to the key components of a rotating field machine, the rotor and stator· Experimental demonstration of how torque arises and of the generator principle· Creation of a rotating magnetic field by rotating field machines: experimental demonstration

· Introduction to the principle of a three-phase transformer · Investigation by measurement of three-phase machines in star and delta configurations.· Measurement of phase-to-phase and line-to-line voltage and current· Measurement of rotor voltage and current· Interpreting a rating plate· Introduction to nominal data and characteristic parameters for electrical machines, power


reversal of rotation

permanent magnet rotor

B3.9 9. Synchronous and Slip-ring machines Course SET 4 Lucas NuelleIncludes: SO4204-7U

Course contents:

reluctance machines

(including salient pole, non-salient pole and reluctance rotors)

and reluctance machines

Measurement of rotor voltages with open and shorted rotor windings, response to starting resistors, determining slip and speed by means of voltage measurements

machines

and voltage measurements

torque, run-up response, asynchronous and synchronous operation, reversal of rotation,

B3.10 10.Three-phase transformer Course SET 4 Lucas NuelleIncludes: SO4204-7Y

singel phase and three phase transformers and transformer circuits, three-phase load, usuable for star and delta connection

Course contents:

quadrant operation

· Introduction to the design and function of asynchronous machines with squirrel cage rotors· Investigation by measurement of a squirrel-cage rotor, frequency response characteristics,

· Investigation by measurement of the operating response of a synchronous machine with a

· Introduction to the principle of a capacitor motor (Steinmetz circuit)· Investigation by measurement of the operating response of a capacitor motor· Explanation of the importance of temperature monitoring in electrical machines· Measurement of winding temperature in running machines· Fault simulation (4 simulated faults activated by relay)· Course duration. 5.5 h approx. (Fault simulation 0.5 approx.)

· 1 Experiment card including stator with three-phase winding and starting resistors· 3 Rotors: slip-ring rotor, synchronous rotor and reluctance rotor· Stroboscope with extra-bright LED· CD-ROM with browser and course software

· Identifying the most common applications for synchronous rotors, slip-ring rotors and

· Explanation of a how a magnetic field arises in rotating field machines · Explanation of the design and function of synchronous, slip-ring and reluctance machines· Introduction to the key components of synchronous, slip-ring and reluctance machines

· Introduction to circuit diagrams, terminal charts and nominal data for synchronous, slip-ring

· Interpreting a rating plate· Introduction to the principles of speed control of slip-ring rotor machines· Experimental investigation of the operating response of slip-ring rotor machines.

· Explanation of the differences between motor and generator operation of synchronous

· Introduction to the principles of speed control of synchronous machines· Experimental investigation of the operating response of synchronous machines: run-up behaviour, speed measurement, power factor determination (cos j) with the aid of current

· Experimental investigation of the operating response of reluctance machines: creation of

power factor determination (cos j) with the aid of current and voltage measurements· Course duration 5 h approx.

· 1 Experiment card with three-phase transformer, with 12 windings and tappings for study of

· CD-ROM with and course

· Principles of transformers· Study of load characterists of single phase transformers, for one quadrant and four


B3.11 11.Semiconductor components Course SET 6 Lucas NuelleIncludes: SO4204-5A

ollowers, with/without feedback)

Course contents:

B3.12 12. Transistor and amplifier circuits Course SET 6 Lucas NuelleIncluding: SO4204-5H

Course contents:

resistive capacitive and direct feedback

· Measurement of current and voltage under load / no-load conditions· Study of the transformation ratio· Equivalent circuit diagram· Study of three-phase transformers· Study of various three-phase transformer circuits and their effects on load / no-load operation· Study of various circuits with unbalanced load· Determination of short circuit voltage· Duration approx. 3 h

· 1 Experiment card with diode circuits (Si, Ge and Zener diodes)· 1 Experiment card with photocell light barrier and stabilising circuit using Zener diode· 1 Experiment card with transistor circuitry for building various circuits (emitter and collector

· CD-ROM with browser and course software

· Introduction to common diode designs· Introduction to key properties of diodes· Identifying key applications of diodes· Investigating valve and rectifier effects of the diode· Recording static and dynamic characteristics of various diodes· Experimental determination of various parameters for Ge, Si and Zener diodes· Investigating limiter circuits with Zener diodes (with and without load)· Investigating stabilising circuits using Zener diodes in response to input voltage and load· Determining characteristics and characteristic curve of a light emitting diode · Investigating switching characteristics and characteristic curve of a phototransistor· Investigating a fork-type light barrier· Introduction to basic transistor circuits· Experiment on adjusting operating of a transistor circuit· Measurement of gain and input/output resistance of common emitter circuit, without feedback· Investigating the effect of resistive and capacitive feedback in a common emitter circuit· Measurement of gain and input/output resistance of common collector circuit · Fault simulation (12 simulated faults activated by relay)· Course duration 6.5 h approx. (fault finding 2 h approx.)

· 1 Experiment card with 2 multi-stage amplifier circuits with modifiable feedback· 1 Experiment card with differential amplifier built with discrete components· 1 Experiment card with 2 constant current sources (FET and bipolar transistors)· CD-ROM with browser and course software

· Measuring voltage gain of an amplifier stage· Analysis by measurement of a multi-stage amplifier (gain and frequency response) with

· Introduction to the function and operation of differential amplifiers· Adjusting offset for a differential amplifier· Control of a differential amplifier with symmetrical and asymmetrical voltages· Investigating the response to load of a constant current source using FETs or bipolar transistors · Introduction to the functioning of a constant current source· Fault simulation (15 faults activated by relay)· Course duration 4.5 h approx. (fault finding 2.5 h approx.)


B3.13 13.Transistor multivibrators Course SET 6 Lucas NuelleIncludes: SO4204-5D

Course contents:

B3.14 14.Operational amplifiers Course SET 6 Lucas NuelleIncludes: SO4204-5M

Course contents:

, comparators, Schmitt triggers)

B3.15 15.Power semiconductor devices Course SET 6 Lucas NuelleIncludes: SO4204-5P

Course contents:

load response, conducting, non-conducting and transmission response

transmission response

· 1 Experiment card with astable multivibrator using discrete components· 1 Experiment card with bistable multivibrator using discrete components· 1 Experiment card with monostable multivibrator using discrete components· CD-ROM with browser and course software

· Introduction and explanation of the function of astable, bistable and monostable multivibrators· Measurement of input and output signal characteristics of multivibrator circuits· Investigation of multivibator response over time with various input configurations· Explanation of the effect of various inputs on the time response of multivibrators· Investigation the switching response of multivibrators for pulsed or square input signals· Investigation the switching response of multivibrators to push button signals· Fault simulation (12 simulated faults activated by relay)· Course duration 4 h approx. (fault finding 2 h approx.)

· 1 Experiment card with inverting and non-inverting op-amp circuits· 1 Experiment card with comparator and Schmitt trigger circuit with adjustable reference voltage· CD-ROM with browser and course software

· Introduction to the design and function of operational amplifiers · Circuit diagram and basic circuit types for operational amplifiers (impedance converters, adders

· Determination of the characteristic and limiting values of an operational amplifier by measurement· Investigation of DC and AC response of inverting and non-inverting op-amp circuits· Measurements on an adder circuit· Measurements on a comparator circuit· Investigating the switching response of a Schmitt trigger depending on reference voltage· Fault simulation (15 simulated faults activated by relay)· Course duration 4.5 h approx. (fault finding 2.5 h approx.)

· 1 Experiment card with various power electronics components and load connected via sockets· CD-ROM with browser and course software

· Introduction to the design and function of thyristors· Introduction to the design and function of triacs· Introduction to the design and function of MOSFETs· Introduction to the design and function of IGBTs· Investigation of a thyristor circuit by measurement: load response, conducting, non-conducting

· Investigation of a triac circuit by measurement: load response, conducting, non-conducting and

· Determining the threshold voltage of a MOSFET by measurement· Investigating the switching and power response of a MOSFET· Determining the threshold voltage of an IGBT by measurement· Investigating the switching and power response of an IGBT· Course duration 2 h approx.


B3.16 16.Power supply circuits Course SET 6 Lucas NuelleIncludes: SO4204-5R

Course contents:

measurement

B3.17 17.Digital Electronics Gates and flip-flops Course SET 6 Lucas Nuelleincludes: SO4204-6A

a sequence of gates

Course contents:

basic gates

B3.18 18.Digital Electronics Sequential circuits Course SET 6 Lucas Nuelleincludes: SO4204-6C

Course contents:

· 1 Experiment card with half-wave and bridge rectifiers plus load circuit· 1 Experiment card with voltage multiplier in Villard cascade circuit· 1 Experiment card with transistor voltage regulator and load circuit· 1 Experiment card with fixed-voltage regulator and load circuit· CD-ROM with browser and course software

· Introduction to design and function of half-wave and bridge rectifiers· List of parameters for rectifier circuits (mean and rms values, form factor and ripple)· Introduction to common circuits for smoothing the output voltage from rectifiers· Determining the characteristics of half-wave (and bridge) rectifiers with a resistive load by

· Determining the characteristics of half-wave (and bridge) rectifiers with smoothing by measurement· Investigation by measurement of a loaded and unloaded voltage multiplier circuit· Measuring the load dependency of the ripple· Introduction to the design and function of transistor voltage regulators (Darlington transistors)· Measuring the adjustment range of unloaded transistor voltage regulators· Investigating the load response of transistor voltage regulators · Explanation of the functioning of fixed-voltage regulators with series-type control transistor· Explanation of the functioning of a shunt-type transistor as controller for adjustable voltage· Investigation of static and dynamic control quality of transistor voltage regulators by measurement· Fault simulation (9 simulated faults activated by relay)· Course duration 5.5 h approx. (fault finding 1.5 h approx.)

· 1 Experiment card with logic gates (NOT, AND, OR, NAND, NOR, EXOR, EXNOR) and

· 1 Experiment card with JK flip-flop· CD-ROM with browser and course software

· Introduction to basic logic circuits· Introduction to the terms truth tables, symbols, switching equations and timing diagrams for all

· Introduction to Boolean functions and laws· Experimental derivation of Boolean functions and laws· Design of basic logic circuits using in NAND and NOR gates· Minimisation of logic circuits using Karnaugh maps and experimental testing· Introduction to the principles of flip-flops· Investigation of the operation of JK flip-flops (static and dynamic input signal/single clock mode)· Investigation of a counter circuit· Fault simulation (7 simulated faults activated by relay)· Course duration 5 h approx. (fault finding 1 h approx.)

· 1 Experiment card with NAND, NOR gates and flip-flops for building sequential circuits· 1 Experiment card with synchronous binary counter, configurable as up or down counter· CD-ROM with browser and course software

· Introduction to the design and function of various flip-flops and registers


real circuits

B.4 Accessories: Accessories consist of : SET 11 Lucas Nuelle1. 3-ph power supply SO4203-2D

mains cable

2. Digital Multimeter

with automatic socket disabling and IR data interface, SET 10 LM2321

10A DC; 3mA - 10A AC

3. Shunt resistors on a PCB SO4203-2Jfor current measurement using the analog inputs of the interface system.

4. Set of connection cables(22 pcs) for SO4203-2Jconsisting of:

5. Connection plugs (10 pcs) SO4203-2J

· Investigating the function of various flip-flops and registers by measurement· Design and construction of counters and testing with real circuits· Design and construction of shift registers with serial and parallel outputs and testing with

· Introduction to the design and function of counters and dividers· Analysis of counters and dividers by measurement· Measurements on synchronous and asynchronous counters· Introduction to the difference between synchronous and asynchronous counters· Design and investigation of binary-coded up and down counters· Investigating the principle of debounced switches and pushbuttons· Fault simulation (2 simulated faults activated by relay)· Course duration 5 h approx. (fault finding 0.5 h approx.)

· Settings should be made via virtual instruments· Mains input: 100 - 250 V AC, 50 - 60 Hz via IEC socket (non-heated devices) and included

· Output: 2 x 24 V / 2 A via cable approx. 2 m long with 6-pin DIN socket

· Resolution: ±31,000 digits· Coupled to blended learning system via infra-red interface· Measurement functions voltage and current: 30mV - 600VDC, 3V - 600V AC; 300mA -

· Resistance ranges: 300ohms - 30Mohms· Special ranges: °C· Continuity and diode test· Automatic range selection and battery switch-off; min/max and data-hold function· High current fuse (mA) for nominal voltage of 1000 V· Protective rubber cover

· 6 Shunt resistors: 2 x 1 ohm, 2 x 10 ohm, 2 x 100 ohm· Screen print of symbols for identifying resistors, the voltage taps and current inputs· 24 x 2-mm sockets

· 8 x connection leads 15cm, blue· 4 x connection leads 15cm, yellow· 2 x connection leads 45cm, black· 2 x connection leads 45cm, yellow· 2 x connection leads 45cm, red· 2 x connection leads 45cm, blue· 2 x adapter connection leads 50cm, white

· connector plugs· Plug spacing 5 mm· Colour: white


6. Aluminium case SO4203-2YSturdy aluminium case with moulded foam block to accommodate a complete interface system (without equipment)

cables and smaller accessories

7. Dual Trace Oscilloscope 20 Hhz SET 4 TektronixFEATURES TDS1002BMonochrome LCD display, 60 MHz, Sample rates up to 1 GS/s2 channels, Advanced trigerrs including pulse widh and line-selectable video trigger11 automatic measurements, FFT standardRemovable data storage via front panel USB portSeamless PC Connect

8. FUNCTION GENERATOR GFG-8020H, 2MHz SET 4 GOOD WILLFEATURES GFG-8020H* Frequency Range: 0.2Hz ~ 2MHz* Coarse and Fine Tuning* Built-in 4 Digit Counter(INT only)* CMOS Output* Large 0.5" LED Display* Waveforms: Sine, Triangle, Square, TTL Pulse* Variable DC Offset Control* VCF Input Function* Output Overload Protection

B.5 Accessories Project work Accessories consisting ofThe following equipment sets are to be assembled on a thematic basis and should provide a basis for a wide variety of experiments to be documented on an accompanying CD as projects It must be possible to combine the sets with a supplied circuit simulation program.

1. Breadboard system with cable set (140 pcs) SET 11 Lucas NuelleBreadboard and cable set for the Experimenter. Experimenter and results in a The SO4203-2Cbreadboard is inserted into the convenient system for experimenting with discrete components or up to 18 integrated circuits. Breadboards with 2 x 948 connector sockets, contacts nickel-plated, Dimensions: L x W x H: 166 x 118 x 9, Including set of cables in transparent box with 5 compartments, equipped with 140 connector wires with stripped ends in 14 different lengths Including 4 x flexible 1mm to 2mm adapter cables, 20cm in length

Component Kits2. Component Kit DC technology SET 2 SO4204-1A

includes

Course contents:

· Capable of accommodating 1 Interface, 2 Experimenters, 2 power supplies as well as

· Lockable padlock; stable padlock hinge· Colours: aluminium,black,chrome· Dimensions: 610 x 480 x 100 mm

· Documentation on CD-ROM· 20 resistors, 2 potentiometers, 1 capacitor, · 1 NTC thermistor, 1 PTC thermistor, 1 LDR, 1 VDR

· Electric circuits/Ohm's law· Kirchhoff's laws: series and parallel connection of resistors· Circuits with mixed connection of resistors· Voltage divider circuits with fixed/variable resistors· Bridge circuits with resistors· Applied circuits using NTC and PTC thermistors, VDRs and LDRs


3. Component Kit , AC technology SET 2 SO4204-1Dincludes

Course contents:

4. Component Kit, Electronic components SET 2 SO4204-2Aincludes

Course contents:

5. Component Kit, Basics of digital technology SET 2 SO4204-2Pincludes

Course contents:

6. Component Kit, operational amplifier circuits SET 2 SO4204-2Gincludes

Course contents:

7. Component Kit, DC motor SET 10 SO4204-2Q

· Documentation on CD-ROM· 12 resistors, 7 capacitors, 6 inductors· 4 potentiometers, 2 varicap diodes

· Capacitors and inductors in DC circuits· Resistors, capacitors and inductors in AC circuits· RC combinations on alternating and square-wave voltages, pulse shaping· Resonant circuits, series-resonant circuits, parallel-resonant circuits· Parallel-resonant circuit with variable-capacitance diode tuning· Filter circuits: high-pass, low-pass and band-pass filters

· Documentation on CD-ROM· 20 resistors, 10 diodes, 4 potentiometers· 1 fork-type light barrier, 1 transistor

· Recording the characteristic curves of silicon, germanium and Zener diodes· Investigation of conducting and non-conducting states· Appled circuits such as voltage stabilisation and limiting circuits· Use of Zener diodes and photodiodes· Investigation of characteristic and limiting values· Bipolar transistor in a common emitter circuit· Bipolar transistor in a common collector circuit

· Documentation on CD-ROM· 7 ICs, 4 LEDs, 7 capacitors, 3 resistor networks

· Basic logic elements· Sequential circuits· Applied circuits from digital technology· Design and function of JK flip flops· Counters and frequency dividers

· Documentation on CD-ROM· 20 resistors, 4 Ics, 12 potensiometers, 6 capasitors, 2 LEDs, 3 Diodes

· Op-amps in inverting and non-inverting modes· Impedance converters· Determining the characteristics and limiting values of an operational amplifier· Comparators· Schmitt triggers


includes

Course contents:

b.6 Supporting system Supporting system 1. Multimedia table SET 11 ATMI

Multimedia table is use for student desk. Q08-1594-1Spesification:

and alkaline solutions. Furthermore it is heat resistant even to liquid solder or the hot spots resulting from soldering irons and lit cigarettes, for example.

thick grey coloured plastic

Including : Q08-1594-3Including : 1 unit of Multiple socket outlet, 5 fold with illuminated switch 2 pole, according standard SNI, 250 V, 16 A

2. Container on rollers, 3 drawers, utensil drawer, central locking SET 11 ATMIQ08-1594-2

enable drawers of various front heights to installed up to 900 mm. Drawer easily glide assured by 4 precision ball bearing. Central locking system and 3 drawer.

3. Swivel chair, upholstered, castors, gas lift SET 31 ATMI141-000

4. Note book PC SET 11 LenovoG430

· Documentation on CD-ROM· Permanent magnet, resistor, LED, wire

· Function of a DC-Motor· Winding of the rotor· Commutator· Construction of the stator

· Highly-compressed multi-layered fine chipboard· Light grey, slightly textured 0.8mm-thick coating (melamine) · The coating is resistant to a wide variety of chemicals and reagents such as dilute acid

· The edges of the table top are a solid, impact-resistant protective trim made of 3mm-

· The coating and protective trim are PVC-free· Dimension : 1800 x 900 x 720 mm Base frame:· Dual column, square tubing · Welded construction with dual columns moved forward for more knee room· Epoxy resin coating, colour grey· With floor and sill protectors· Height 720mm

· Welded construction of high quality sheet 1.4 mm thickness. Vertical support are slotted to

· Finishing : epoxy-polyester powder (electrostatic) coated· color : machinery green· Dimensions: 430 x 672 x 560mm (WxHxD)

· Casters with brakes.· Chrome-plated, 5-legged frame· Seat, 460 x 420 mm· Vertical damping and extended gas-lift· Height adjustment from 760 to 840mm

· Note book used for student work for doing experiment, for the above.· Platform : Notebook PC· Processor Type : Intel Core 2 Duo processor· Processor Onboard : Intel Core 2 Duo processor T6600 (2,2 GHz, 800 MHzFSB, 2MB)· Chipset : Intel 945GM


LCD Monitor 18,5" LENOVOD185

5. Storage cabinet, 2 hinged doors SET 6 ATMIQ08-1594-4

Cabinethas two swing doors, runs on hinge, one locking system, three adjustable shelves on it heights.

precision ball bearing, with reinforcing ribs welded on

6. Laboratory trolley 800 x 600 x 780mm, grey SET 2 ATMIQ08-1594-5

7. Data Projector 2.000 ANSI Lumen SET 1 SanyoPLC-XW56

· Standard Memory ; 512 MB DDR2 SDRAM PC-5300 · Memory : 2 GB DDR2 SD RAM· Video Type : Integrated Graphics 128 MB (shared) · Display Size : 14" WXGA with Vibrant View· Display Max. Resolution : 1440 x 900 · Display Technology : BrightView TFT · Audio Type : Integrated · Speakers Type : Integrated · Hard Drive Type : 320GB 5400 RPM · Optical Drive Type : DVD±RW · Modem : Integrated · Networking : Integrated · Network Speed : 10 / 100 Mbps · Wireless Network Type : InviLink 802.11BG · Wireless Network Protocol : IEEE 802.11b, IEEE 802.11g · Keyboard Type : QWERTY 86 keys · Input Device Type : Touch Pad · Card Reader Provided ; SD, MMC, Memory Stick / Stick PRO · Interface Provided : 2x USB 2.0, LAN, Audio· O/S Provided : Windows Xp · Battery Type : Rechargeable Lithium-ion Battery · Power Supply : External AC Adapter · Standard Warranty : 1-year Limited Warranty by Authorized Distributor

· Brightness : 250 cd/m2· CRT Size in Inches : 18.5· Case Color : High Gloss Black· Contrast Ratio : 1000: 01;00· Maximum Resolution 1366 x 768· Monitor Type : Flat panel LCD essential

· Cabinet is constructed of carefully welded high quality sheet metal 1.2 mm thickness.

· Finishing : expoxy-polyester powder (electrostatic) coated· color : the most popular colours are grey· Dimensions: 880 x 480 x 1825 mm (WxDxH)· With Shelf for storage cabinet· Welded construction of high quality sheet steel 1.4 thicness, glide easily assured by for

· Dimensions: 868 x 433 x25 mm (WxDxH)· 5 pcs for each storage cabinet

· Table-top made of 30mm-thick, highly-compressed, multi-layered fine chipboard· Steel tube frame 20 x 40 x 2 mm plastic coated· 4 swivelling double casters, 2 of which have brakes· Dimensions (WxDxH): 800 x 600 x 780 mm · Weight: aprox. 34 kg

· Light source: 3 x 1.3 " Polysilicium TFT LCDs, · 1024 x 768 pixel· Reaction time 30 ms


8. Projection Screen 70" SET 1 Focus70"

9. Laser Printer SET 1 Fuji Xerox

AutoIP, IPP+, IPsec+, NetWare+, SMB+, WINS+, HTTPS+, AppleTalk+, WSD+, DDNS+, Bonjour (mDNS)+, IPv6+

Media Weight

Coated (60 - 216 gsm), Label, Envelope, Recycled

weight (106 - 216 gsm), Coated (60 - 163 gsm), Recycled

Media Sizes

Colour Controls

(up to 9,600x600 dpi)

Consumables

· 54 - 70 mm manual zoom· Lamp power 120 W· Life cycle 2.000 hours

· Moveable projection screen, mounted a frame with wheels.· Freely adjustable in it's angle. · Dimension :70" x 70" (178 x 178) cm

· Supported Protocol : LPD, Port9100, FTP, DHCP, BOOTP, RARP, HTTP, SMTP, SNMP,

· Printer Management : CentreWare Internet Services· Embedded Font : 81 PCL fonts, 136 PostScript fonts· Printer Language : PCL 6, PCL 5, PostScript® 3, FX-PDF

· Simplex Printing : Plain (60 - 80 gsm), Bond (81 - 105 gsm), Heavyweight (106 - 216 gsm),

· Manual Duplex Printing (Manual Feeder) : Plain (60 - 80 gsm), Bond (81 - 105 gsm), Heavy

· Tray & Manual Feeder : A4, B5, A5, Letter, Folio, Legal, Executive, Envelopes (Monarch, · Com 10, DL, C5), Custom (76 x 127 mm - 216 x 356 mm)

· Selectable Print Quality Modes : Standard : 300x300 dpi, High Quality : 600x600 dpi

· Image Auto Correction : Off, Standard, Portrait, Landscape, Map· Special Features :Colour Restriction Control (Auditron), Maximum Print Restriction (Auditron)· Dimensions 419mm (W) x 475 mm (D) x 317mm (H)· Weight 29,1 kg (including print cartridge))· Power Consumption Maximum : 1050 W, Printing : 510 W, Standby Mode : 85 W, · Power Save Mode : 5 W

· Black Toner Cartridge Up to 2,500 pages· Cyan / Magenta / Yellow Toner CartridgeUp to 1,500 pages

Poli Sekayu elektro Final

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