74LS83 4-Bit Binary Full Adder IC
IC 7483 4-Bit Binary Adder IC
74LS83 designed as a high-speed 4-bit fuller Adder IC featuring carry out function. The IC has four independent stages of full adder circuits during a single package. It?s commonly utilized in applications where arithmetic operations are involved. Although today we?ve cheap microcontrollers that would perform all arithmetic operations required for our application, in period of time the ICs like Adder, Counter, flip-flops etc were used for same. In this manner the complexity and therefore the BOM cost of the circuit design will greatly go low. 74LS83 may be a Full Adder with Carry in and perform feature. It?s a four-stage 4-bit counter, meaning it?s four individual Full adder circuits each of 4-bit inside one package. It also can be easily cascaded if quite four stages are required. These full adders perform the addition of two 4-bit binary numbers. The sum (?) outputs provided for every bit and therefore the resultant carry (C4) obtained from the fourth bit. These adders feature full internal look ahead across all four bits. This gives the system designer a partial lookahead performance at the economy and a lower package count when using ripple-carry. Because the adder logic, including the carry, is implemented in its actual form, end-around carries are frequently achieved without the need of logic or level inversion. The 74LS83 multiplies the input carry by two 4-bit binary words (A and B). On the sum outputs (1?4) and outgoing carry (C4) outputs, the binary sum shows. 74LS83 Datasheet
8 Way Switch
A dual in-line package (DIP) switch is a manual electronic package that is composed of a series of tiny switches. It has a rectangular casing and two parallel rows of connecting terminals. whose position changes the operating mode of a device. DIP switches help configure computer peripherals, such as hard drives, modems, sound cards, and motherboards.
This 8 Way DIP SPST Switch is the simplest type of switch in which a single toggle either connects or disconnects a single terminal from other. This switch is designed to be conveniently mounted on printed circuit boards to provide various ranges of input to the electronic device. Due to its design, it is also known as a piano switch.
SPECIFICATIONS
| Max. Operating Voltage | 30V DC |
| Max. Operating Current | 150mA |
| Contact Resistance | <100m? |
| Operating Temperature | -20?C to 80?C |
| Colour | Red and White |
| Pitch | 2.54mm |
| Mounting Type | Through Hole |
| Number of Connecting Pins | 16 |
| Position | 8 |
| Dimension | 21.8x12.6x9.4mm |
93LC46/P
The Microchip Technology Inc. 93LC46/56/66 are 1K,
2K and 4K low voltage serial Electrically Erasable
PROMs (EEPROM). The device memory is configured
as x8 or x16 bits depending on the external logic of
levels of the ORG pin. Advanced CMOS technology
makes these devices ideal for low power nonvolatile
memory applications. The 93LC Series is available in
standard 8-pin PDIP and surface mount SOIC
packages. The rotated pin-out 93LC46X/56X/66X are
offered in the ?SN? package only
AD202KN
The AD202 and AD204 are general purpose, two-port, transformer-coupled isolation amplifiers that may be used in a broad
range of applications where input signals must be measured,
processed, and/or transmitted without a galvanic connection.
These industry standard isolation amplifiers offer a complete
isolation function, with both signal and power isolation provided
for in a single compact plastic SIP or DIP style package. The
primary distinction between the AD202 and the AD204 is that
the AD202 is powered directly from a 15 V dc supply while the
AD204 is powered by an externally supplied clock, such as the
recommended AD246 Clock Driver.
The AD202 and AD204 provide total galvanic isolation between
the input and output stages of the isolation amplifier through
the use of internal transformer-coupling. The functionally complete AD202 and AD204 eliminate the need for an external,
user-supplied dc-to-dc converter. This permits the designer
to minimize the necessary circuit overhead and consequently
reduce the overall design and component costs
AD246JY
AD2S82AHP
The AD2S80A is a monolithic 10-, 12-, 14-, or 16-bit tracking
resolver-to-digital converter contained in a 40-lead DIP or 44-
terminal LCC ceramic package. It is manufactured on a BiMOS
II process that combines the advantages of CMOS logic and
bipolar high accuracy linear circuits on the same chip.
The converter allows users to select their own resolution and dynamic
performance with external components. This allows the users great
flexibility in defining the converter that best suits their system
requirements. The converter allows users to select the resolution
to be 10, 12, 14, or 16 bits and to track resolver signals rotating
at up to 1040 revs per second (62,400 rpm) when set to 10-bit
resolution.
AD420AN
The AD420 is a complete digital to current loop output
converter, designed to meet the needs of the industrial control
market. It provides a high precision, fully integrated, low cost
single-chip solution for generating current loop signals in a
compact 24-lead SOIC or PDIP package.
The output current range can be programmed to 4 mA to
20 mA, 0 mA to 20 mA or to an overrange function of 0 mA to
24 mA. The AD420 can alternatively provide a voltage output
from a separate pin that can be configured to provide 0 V to 5 V,
0 V to 10 V, ?5 V, or ?10 V with the addition of a single external
buffer amplifier
