What is the BCD representation of the decimal number 41 in 6-bit?


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2016-02-02 21:49:12
2016-02-02 21:49:12
  • 41 in decimal is 0100 0001 in BCD (this is 8 bits not 6 bits)
  • 41 in decimal is 101001 in binary (this is 6 bits, but binary not BCD)
There is no 6 bit BCD representation of the decimal number 41!
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Related Questions

an algorithm that converts a decimal number to Binary Coded Decimal (BCD) representation.

BCD is a decimal number. BCD is one specific way to store decimal numbers in computer memory.

explain decimal to BCD encoder

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In computing terms, BCD means binary-coded decimal. It is a class of a binary encodings of decimal numbers. Each decimal number is resresented by a fixed number of bits.

explain decimal to BCD encoder

A 4 BCD code is a 4 decimal-digit BCD code, thus a 16 digit binary-code. You take the decimal number 3545. It's BCD code is 0011 0101 0100 0101 where every 4 bits represent a decimal digit.

The decimal number 10, represented in BCD is 0001 0000. If, instead, you mean that you have 10 in BCD and want to know what that means, that is equivalent to 0000 0010 and would be 2 in decimal.

Many non-integral values, such as decimal 0.2, have an infinite place-value representation in binary (.001100110011...) but have a finite place-value in binary-coded decimal (0.0010)[bcd]. Consequently a system based on binary-coded decimal representations of decimal fractions avoids errors representing and calculating such values. Rounding at a decimal digit boundary is simpler in BCD. Addition and subtraction in decimal does not require rounding.

In BCD each digit of a decimal number is coded as a separate 4 bit binary number between 0 and 9.For example:Decimal 12 in BCD is shown as 0001 0010 (Binary 1 and Binary 2), in Binary it is 1100.

we converter BCD to EXCeSS-3 is first rule 2 4 2 1 and other third number of BCD add other BCd as 0 to 15 Type your answer here...

1111 can't be used for Binary Coded Decimal (BCD) because 1111=15 which is made of 2 digits 1 and 5. In BCD a 4-digit binary number is used for every decimal digit. ex. 1111 is incorrect 1 = 0001 5 = 0101 Answer: 0001 0101

The 7448 integrated circuit is a BCD to 7-segment display decoder. In other words a BCD, or binary coded decimal (such as 0101), is sent to the IC via 4 input ports. The IC then translates this into another value, which is then sent to a 7-segment number display which then displays the decimal value of the BCD. If you sent the BCD 1001 to the IC, it would then send out a signal to the 7-segment display which would then show the number 9, which is the decimal value of 1001.

A: A BCD code must be decoded to provide a seven digit output to the 7 bars display that is the only way to see the binary number visually.

BCD is used for binary output on devices that only display decimal numbers.

Example Binary 00111000 Convert to Decimal 56 Convert to BCD by using groups of four binary numbers for each digit 5 6 0101 0110

BCD:A byte (unpacked) representation of a decimal digit in the range0 through9. Unpacked decimal numbers are stored as unsigned byte quantities. Onedigit is stored in each byte. The magnitude of the number is determined fromthe low-order half-byte; hexadecimal values 0-9 are valid and areinterpreted as decimal numbers. The high-order half-byte must be zero formultiplication and division; it may contain any value for addition andsubtraction.Packed BCD:A byte (packed) representation of two decimal digits, each in the range0 through 9. One digit is stored in each half-byte. The digit in thehigh-order half-byte is the most significant. Values 0-9 are valid in eachhalf-byte. The range of a packed decimal byte is 0-99.

0100 0010 0110 1000 1001 0110 0010 0111bcd = 4268962710

Decimal: 3 2 5 Binary: 0011 0010 0101 so 325 = 0011 0010 0101

it is used for representing decimal numbers in which each decimal digit is represented by a sequence of binary digits. This makes it relatively easy to convert the numeric representation for printing or display purposes, and speeds up decimal calculations.

A BCD digit only uses the binary patterns that represent decimal numbers, ie 0000 - 1001; this requires 4 bits (1 nybble) so there can be 2 BCD digits to a byte. Therefore in 3 bytes there can be 3 × 2 = 6 BCD digits. The largest BCD digit is 1001 = 9. Assuming non-signed, the maximum 3 byte BCD number is 999,999.

Decimal 30 = binary 11110. The decimal binary code (BCD), however, is 11 0000.

In BCD it is 00100111 In Binary, which is what you mean, it is 101111

BCD uses binary digits as if they were decimal digits. There are two BCD numbers per one 8-bit byte. For example, 23 decimal would be coded as 0010 0011, while in binary (not BDC), it would be 0001 0111. Similarly, 255 in BCD is 0000 0010 0101 0101, while in binary, it would b simply 1111 1111. As you can see, BCD is not as compact as binary, but it does have mathematical and software properties that makes it desirable (some games use BDC to store a "score", for example, because it takes fewer CPU cycles to display a BCD than a binary number).

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