Telerik UI for Windows Phone by Progress

Barcode-Overview

Thank you for choosing RadBarcode for Windows Phone 8!

Note
Please note that this component is currently available only in Telerik UI for Windows Phone 8 and not in the version of the controls targeting Windows Phone 7.

RadBarcode has two subtypes: RadBarcode and RadBarcodeQR

The RadBarcode can be used for automatic Barcode generation directly from numeric or character data.

The RadBarcodeQR (QRcode abbreviated from Quick Response Code) is a matrix barcode (or two-dimensional code), readable by QR scanners, as well as mobile phones with a camera, and smartphones.

Note

The following references are required in order to use the control:

  • Telerik.Windows.Core.dll
  • Telerik.Windows.Controls.Primitives.dll
  • Telerik.Windows.Controls.DataVisualization.dll

RadBarcode

Symbology Specifications

BarCodeDescription

Code 128

Very dense code, used extensively worldwide

Code 128 A

Subset of Code 128  *(more info below)

Code 128 B

Subset of Code 128  *(more info below)

Code 128 C

Subset of Code 128  *(more info below)

Code 39

(aka USD-3, 3 of 9): U.S. Government and military use, required for DoD applications

EAN 8

Short version of EAN-13, 8 characters

EAN 13

Used with consumer products internationally, 13 characters

UPC A

Used with consumer products in U.S., 12 characters

UPC E

Short version of UPC symbol, 6 characters

Additional information on Code128

  1. Code128A, Code128B and Code128C represent the A, B and C subsets of the Code128 symbology. Code128 uses an intelligent algorithm that picks automatically the appropriate subset according to the input value, and might switch between these subsets in the middle of a BarCode in order to produce a shorter generated sequence. For example, if you have the input string “ABCD1234”, the “ABCD” part of the string will be encoded using the A subset, while the “1234” part will be encoded with the C subset, because Code128C uses a double-density code for numerical values, thus producing a shorter BarCode as a result. If you want to disable this behavior you can specify explicitly one of the subsets: Code128A, Code128B or Code128C to the Symbology property of the BarCode report item.
  2. Code128 can represent both ASCII characters and non-ASCII control characters. Normally the BarCode report item inserts automatically the appropriate control characters in order to conform to the Code128 specification. However certain applications might require manual insertion of certain control characters, such as the functional characters: FNC1-FNC4. For this purpose the BarCode report item assigns special Unicode values to these control characters outside the normal 0-127 ASCII code range. The following table lists all Code128 control characters and their corresponding Unicode values:
Code 128 Control Characters

Control Character

Hexadecimal

Decimal

Code A

F4

244

Code B

F5

245

Code C

F6

246

FNC1

F7

247

FNC2

F8

248

FNC3

F9

249

FNC4

FA

250

Shift

FB

251

Start A

FC

252

Start B

FD

253

Start C

FE

254

Stop

FF

255

Additional information on EAN128

EAN128 is a special case of Code128. The only difference between EAN128 and Code 128 is that EAN128 inserts the FNC1 control character at the beginning of the BarCode in order to conform to the EAN128 specification. If you have a multi-part EAN128 BarCode which requires the FNC1 control character as a delimiter between the different parts, you should insert it manually:

RadBarcodeQR

The QRCode represents a square matrix, filled with black and white modules. There are four modes available in the control, namely:

  • Numeric data (digits 0 - 9)

  • Alphanumeric data (digits 0 - 9; upper case letters A-Z; nine other characters: space, $ % * + - . / : )

  • 8-bit byte data (JIS 8-bit character set (Latin and Kana) in accordance with JIS X 0201)

  • Kanji characters (Shift JIS character set in accordance with JIS X 0208 Annex 1 Shift Coded Representation)