Table Of Contents Introduction.....................................................................................................2 Installation .......................................................................................................3 Configuring the RF Laser Reader .................................................................8 Radio Considerations....................................................................................24 Operating Instructions.................................
The LZ400-RF and the B78 Base Station have been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications.
Introduction The Worth Data RF Lasers have the following features: 1) The LZ400-RF Laser Scanner for the USA and Canada. This laser has a range of 500 feet and has collision detect and retry logic built within. The LZ400-RF Laser communicates with the B78 Base Station. The Base Station communicates with a host PC through the USB port or a RS-232 Serial Port. Up to ten RF Lasers can communicate with one Base Station. 2) If you use the USB interface, data is transmitted as keyboard data.
Installation Components of RF Laser Readers In the event the shipping box shows damage on arrival, please note the damage on the carrier's receipt log. The supposed contents of your Reader shipment is the following: 1. An R/F Base Station with 1-10 RF Lasers. 2. A Worth Data regulated 5V power supply with each Base Station and Laser Scanner ordered. TO PREVENT DAMAGING the Base Station or RF Laser, DON'T USE ANY OTHER BRAND OF POWER SUPPLIES. 3.
USB Installation Before connecting to a USB port, first plug one of the Worth Data 5v regulated power supply into the Base Station. (REMEMBER, any other brand will damage the Base Station.) The Base Station will power up with 3 more flashes than the channel setting; i.e. if it is set on Channel 0, it will flash green three times. If the Channel were set to 7, it would flash green 10 times. Now connect the USB port to the Base Station.
Installing the R/F Reader with a dedicated serial port The Base Station can be directly attached to a spare serial port as shown below. Your software will need to read the serial port as a separate device, unless you're using an IBM-compatible computer and Worth Data’s PortKey software, which makes serial-port data appear as though it had been typed at the keyboard. See page 28 for a simple BASIC program to read the serial port for testing purposes.
Installing the R/F Reader between a computer and terminal If you attach the s Base between your computer and a terminal, as shown below, using Cable Selection F45-1, bar code data will be sent to the computer as if it had been typed on that terminal. Refer to page 8 for the details of the pin-outs for each connector on the cable. You will also need to change jumpers (JP2 on the RF Base) on the board inside the case from the “S” position to the “Y” position.
R/F Reader Serial Model Pinouts F34, DB25 Null Modem Cable These are the pinouts for Cable F34, a DB25 Female, with pins 2 and 3 crossed, used for connection directly to a DB25 male host COM. Function Frame Ground Transmit Data Receive Data Signal Ground Mod 8 Pin 1 2 3 4 DB25F Pin 1 3 2 7 F36, DB9 Straight Cable Pinouts These are the pinouts for the DB9 Female Straight Cable, F36, used for connection of the Base directly to a DB9 Male host COM.
Configuring the RF Laser Reader for your computer and application Find the 8 1/2 x 11" laminated RF Laser Reader Setup Menu sheet and look it over. This simple menu lets you easily configure the Radio/Freedom Reader to work with almost any computer system, and to tailor its bar code reading and data format characteristics. Be sure to read the scanning instructions on the next page. To read Reader Setup Menu bar codes and configure your reader, you must know the right way to scan bar codes.
Laser Scanning Instructions Using a laser scanner is basically as simple and intuitive as "point and shoot" at a distance of 0-24", depending on the density of the bar code. Basically, the laser scanner's beams must cross every bar and space on the bar code, without touching any other bar codes, as shown in the first example below. You'll need to hold the scanner further away to produce a wider beam for large bar codes, and closer for bar codes with bars very close together.
The important thing to remember about using a laser with the RF Laser Reader Setup Menu is that you need to make sure the scanner's beam covers only one bar code at a time. The laser scanner's beam is wide enough, and the configuration bar codes close together enough, that you will need to use your fingers, or the supplied Laser Setup Assist window, to "block off" bar codes adjacent to whatever configuration bar code you need to read.
three beeps will be higher in pitch than the other beeps had been. If they aren't higher in pitch, repeat the steps on this page until you are successful at changing the beep tone. Now that your beep tone is at the "highest" pitch, you may want to change it back to "medium" or a different setting. Repeat the steps above, selecting the option you prefer to "highest" in step 3.
Code 3 of 9 (Code 39) Enable Code 39 Disable Code 39 Enable Full ASCII Code 39 Disable Full ASCII Code 39 Enable Code 39 Accumulate Mode Disable Code 39 Accumulate Mode Enable Start/stop character transmission Disable Start/Stop character transmission Enable Mod 43 Check Digit Disable Mod 43 Check Digit Enable Check Digit Transmission Disable Check Digit Transmission Caps Lock ON Caps Lock OFF 0 1 2 3 4 5 6 7 8 9 A B C D For information about Code 39 and Full ASCII Code 39, see Appendix C.
UPC/EAN Enable UPC/EAN Disable UPC/EAN Enable UPC/EAN Supplements Disable UPC/EAN Supplements Enable transmission of UPC-A NSC and EAN-13 1st 2 Disable transmission of UPC-A NSC and EAN-13 1st 1 digits Enable transmission of UPC-A and EAN–13 Check Digit Disable transmission of UPC-A and EAN-13 Check Digit Enable transmission of UPC-E NSC and EAN-8 1st Digit Disable transmission of UPC-E NSC and EAN-8 1st Digit Enable transmission of UPC-E and EAN-8 Check Digit Disable transmission of UPC-E and EAN-8 check D
If you wish to transmit UPC-A data in EAN-13 format, (an added leading 0 for the USA's country code), scan Terminator Character and F. Scanning E, the default, sets UPC back to no country code transmitted. ISBN, International Standard Book Numbering, bar codes are EAN-13 codes with a 5 digit supplement. If the first three digits are the "Bookland" country codes of 978 for books or 977 for periodicals, then you can enable transmission of EAN-13 bar codes in the ISBN format.
MSI and Plessey Disable MSI Enable MSI with 1 Mod 10 check digit Enable MSI with 2 Mod 10 check digits Enable MSI with 1 Mod 11 and 1 Mod 10 check digit Transmit No Check Digits Transmit 1 Check digit Transmit 2 Check digits Enable Plessey (mutually exclusive with MSI) Enable LabelCode5 Enable LabelCode4 0 1 2 3 4 5 6 7 8 9 For more information about MSI code, see Appendix I.
2 of 5 Data Length 2 of 5 Code is so susceptible to interpreting partial scans as valid reads that the Radio/Freedom Reader uses fixed-length data as a safeguard. To choose a data length, scan it as a two-digit number using the Barpad Table. For example, to select 8-digit data length, you would scan a 0 and then an 8. Because Interleaved 2 of 5 is required to be an even number of digits in length, you must use an even number.
You can trim 1-15 leading characters from bar code codes by scanning a ~ (tilde -- ASCII 126) followed by a single digit, 1 through F, as part of the Preamble. (Bar codes that are shorter than the amount-to-trim are transmitted with no trimming.) Consider the examples in the following table to understand how trimming works: Bar Code Data 123 12345678 12345678 12345 123456 Preamble XYZ ~3XYZ ~9 ~A ~5 Data Transmitted XYZ123 XYZ45678 12345678 12345 6 You can also trim selectively by bar code type.
Bar codes that are shorter than the sum of the Postamble trimming and Preamble trimming will be transmitted without trimming. Selective trimming and min/max bar code data is also supported through Postamble specifications, (See Preamble above for complete details). Characters This setup option allows you to output ASCII characters different from the ones scanned.
Link Test Code This is a code to test the transmission link between the Wireless Scanner and its Base Station, without transmitting data. You can use this to be sure you are in range and able to hear the base station beeping. No data is transmitted. Do not enter the Setup Mode when performing the link test. This code is the same as the "Clear Buffer" code on the Barpad Menu.
"Delayed Transmission": is a feature which allows the user to leave the computer, (perhaps being operated by someone else), go to the location of the car, scan the VIN with the first trigger pull, return to the computer, be certain that the screen and cursor are properly positioned, and then pull the trigger again for transmission. The first trigger pull scans and stores the bar code. The second trigger pull transmits the data, permitting the user to be sure the cursor is properly positioned.
The following parameters apply base station attached serially. Baud rate 300 600 1200 2400 4800 9600 19,200 0 1 2 3 4 5 6 Data bits 7 Bits 8 Bits 0 1 Set the data bits ("word length") to the same setting your terminal is using, or you want to use with your serial port. Parity None Even Odd 0 1 2 Set parity to the same setting your terminal is using, or the one you want to use with your serial port. None is usually used in conjunction with 8 data bits, Even or Odd with seven data bits.
Protocol This parameter only applies to serial operation of a Base Station. None Host Controlled Acknowledge 0 1 "None" means that Base Station will immediately transmit an acknowledgement to the RF Laser from which it has just received transmitted data, (without waiting for a response from the host computer program.) If you want the host computer program to analyze the data and to send back different beep patterns to the laser scanner, enable Host Controlled Acknowledge.
Test the Reader with your computer If you are connected by usb interface, or if you have a serial reader and are using PortKey with an IBM compatible, you should be able to scan the bar code on the next page, hear a beep (2 beeps on 2-way laser), and see data displayed on the computer's screen. First get your computer to some program where you can type and see it on the screen, (i.e. Notepad). Now scan the TEST LABEL below.
Radio Considerations Operating Instructions Operational Details The RF Laser: 1. chirps on a "good read" or successful scan while turning off the scanner beam, and 2. beeps loudly when it gets the acknowledgement back from the Base Station that it has received the data. The yellow light on the back of the scanner indicates that it is transmitting. You will see up to four transmission attempts before the unit goes to sleep and waits for you to pull the trigger again.
Accumulate Mode Accumulate Mode is an option (which can be enabled or disabled using the Reader Setup Menu's Code 39 section) allowing the reader to accumulate multiple bar codes in its buffer, then transmit them to the computer as if they had been a single bar code. This is useful for entering quantities and other variable data. A small laminated barpad card is provided with each reader ordered to aid in entering variable quantities. It works with Code 39 only, and can't be used with a check digit.
Function/Control Key Support The RF Scanner can also transmit key sequences for function, control, alt (command and option keys on Macs), cursor and shift keys, for ease of use with the many software packages using these keys for menus or commands. You can include these codes in other bar codes, or you can scan these “keystrokes” into your Preamble or Postamble in order to add them to every scan from your reader. You must have Full ASCII Code 39 enabled on your reader (this is the default setting).
Simply scan the correct bar code(s) from the FULL ASCII MENU. For example, if the WDP reads the bar code SOH (ASCII 001 -- a control-A) from the FULL ASCII MENU, it will transmit an F1 key. Shift, Ctrl and Alt keys require three sequences: 1) The ON code generated when the Shift, Ctrl or Alt key is pressed. 2) The other key to be used in conjunction with the Shift, Ctrl or Alt key. 3) OFF code generated when the Shift, Ctrl or Alt key is released.
Troubleshooting All Models Troubleshooting The beam won’t stay on, or I just get a narrow beam when I pull the trigger, or The scanner won’t turn on when I pull the trigger and I get 3 beeps • All of the above problems are an indication that your BATTERIES ARE TOO LOW. With any of the above symptoms, recharge the battery in the RF Laser before assuming you have some other kind of problem. The reader won't beep when reading bar codes • Recheck all the connections. Get close to the Base Station.
USB Trouble Shooting The Base Station's light flashes in Red cycles when the USB cable is connected. • The Base Station cannot enumerate. The driver is probably not installed correctly. Occasionally the user will be unaware that he aborted his driver installation. Once the process has started, it should finish successfully. If it doesn’t, you will not see any data on the screen when scanning. To resolve a driver installation problem follow the applicable instructions below: Windows XP: 1. 2. 3. 4. 5. 6.
Win2000: 1. 2. 3. 4. 5. 6. Log on as Administrator and open the “Administrative Tools” folder in your Control Panel. Run the “Computer Management” utility. Select the “Tree” tab on the left panel Find the “Device Manager” entry under “System Tools” and click on it. The right panel will display current devices. Problem devices will be identified with an “!” icon.
Data characters are garbled or missing. • Make sure you've set the reader to the same baud rate, parity, data bits and stop bits as your serial port. • If Code 39 bar codes are transmitting in the wrong case (upper and lower transposed), set Caps Lock Off on the Setup Menu. • If you're getting occasional extraneous characters, try cutting the jumper between pins 8/20 in the serial Y-Cable's DB25 connectors. See page 7.
Appendix A Changing Jumpers and Channels You may want to change the channel on the Base Station or you may want to set the unit to use a Serial Y Cable. To do so, open up the case. Turn your Base unit upside-down and unscrew its single Phillips screw. If you don't completely remove the screw you can use it as a lever to pull up on the cover, otherwise insert a fingernail, credit card edge or small screwdriver blade into the gap between the base and side of the case.
Serial Users, if you are going to use the Serial Y Cable (F45-1), you will need to change the JP2 (Jumper 2) from S to Y. This permits Half Duplex transmissions and interface between a host and terminal.
Appendix B Recharging the Batteries The LZ400-RF Laser and LZ403-RF Laser have a rechargeable lithium ion battery built-in. When not in use, the RF Laser should be plugged into the supplied, regulated Worth Data 5V power adapter, (DON'T USE ANY Supply Except Worth Data). That way it will always be recharged. The built-in recharger is a smart charger, so you can't overcharge the battery and ruin it.
Appendix C Specifications for Code 39 Code 39 (or Code 3 of 9) is the de facto standard of non-retail American industry. It is widely used in the automotive industry (AIAG specifications) as well as in government and military applications (LOGMARS specifications). Code 39 is flexible, features a large character set, variable data length and density, and bi-directional readability. Code 39 is extremely accurate; substitution errors are almost nonexistent.
Code 39 Advanced Features and Functions Mod 43 Check Character Standard Code 39 can be printed with a "Mod 43 Check Character". This Mod 43 check character cannot be used with Full ASCII Code 39.
Full ASCII Extension to Code 39 "Full-ASCII Code 39" expands the Code 39 character set to include all 128 ASCII characters. Symbols 0-9, A-Z and punctuation characters. and - are identical to their Code 39 representations. Lower-case letters, additional punctuation characters and control characters are represented by sequences of two Code 39 characters.
Appendix D Code 93 Specifications Code 93 is variable length, continuous, bi-directional, compact code. Code 93 is an alphanumeric bar code, which consists of 43 data characters (0-9,A-Z, $/+%.- and Space), 4 control characters, and a unique start/stop character. The entire set of 128 ASCII characters is represented in Code 93 using combinations of control characters and data characters. , , , and .
Appendix E Codabar Specifications Codabar is widely used in libraries, blood banks, the cotton industry and transportation industries. Its' character set consists of numbers 0 through 9, and punctuation characters + . - / : and $. Symbols a, b, c, d, t, n, * and e are used as start and stop characters. Characters are constructed of four bars and three spaces. a12345b Codabar is a numeric-only code, but different combinations of start and stop characters can be used to identify different types of labels.
Appendix F Code 128 Specifications Code 128 is a very powerful bar code, combining an extensive character set and variable length with compactness and error checking. The character set contains all 128 ASCII characters with each character made up of three bars and three spaces. Each element (bar or space) varies from one to four units in width, totaling 11 units of width per character.
The Mod 10 Check digit is calculated the same as the Interleaved 2 of 5 example in Appendix G. It is the data length as well as the MOD 10 check digit that distinguishes the UCC Serial Shipping Container Code from other UCC /EAN 128 bar codes. UCC/EAN 128 is enabled by scanning the appropriate bar codes on the Wireless Reader Setup Menu.
Appendix G Interleaved 2 of 5 Code Interleaved 2 of 5 Code is a numeric-only, even-number-of-digits bar code. It is widely used in warehouse and industrial applications. A combination of five elements, two wide and three narrow represent each character. Odd-number position digits are encoded in the bars, even-number positions in the spaces.
6. Subtract the result of step 5 from the next highest multiple of 10: 60 - 57 = 3 7. The checksum becomes the low-order digit: 19873 8.
Appendix H UPC Specifications UPC symbols are found on almost all grocery products and many other retail items. The UPC code most people are familiar with (UPC-A) is a fixed-length (12 digits) numeric only code, with the first digit controlled by UPC coding assignments and the last digit a checksum. UPCE and UPC-E1 are variations of the standard UPC-A code. Each digit is constructed of two bars and two spaces. UPC has very precise standards of code size, structure, and numbers to be used.
• The leading Number System Character, (the first number of the 11 digits to be entered) should conform to these UPC assignments: 0,6,7,8 Regular UPC 12 digit codes with numbers assigned by the UPC Council. (Do not use 0 as the leading number for in-store marking). 2 Store-marked random weight items of meat and produce. 3 Reserved for National Drug Code and Health Related Items. 4 Use this leading digit for in-store marking of non-food items. 5 Reserved for coupons.
ISBN specifications are available from: American National Standards Institute (ANSI) 11 West 42nd Street, 13th Fl. New York, New York 10036 Tel. 212.642.4900 www.ansi.org document ISO 2108:1992 The UPC/EAN checksum character The last character in a UPC-A, UPC-E, UPC-E1, EAN-13 or EAN-8 bar code is the checksum.
UPC-E Checksum Calculation Use the sample data of 123456 to demonstrate the UPC-E checksum calculation: 1.
Appendix I MSI/Plessey Specifications Plessey is a variable length numeric only bar code. MSI Bar Code is a variable length, numeric-only code with an automatically appended Modulus 10 check digit. MSI is sometimes called Modified Plessey Code. If the user specifies an additional check digit, the MSI code can be 14 digits long, otherwise it has a maximum length of 13 characters.
The MSI Mod 11 check digit is calculated as follows: The example bar code data is: 943457842 1. Assign a checking factor to each number, starting with the units position of the number (in this example, the 2) up to the highest order position (the 9). Use checking factors of: 2,3,4,5,6,7,2,3,4,5,6,7... 2. Multiply the checking factor with its assigned number and add the products: 4 + 12 + 32 + 35 + 30 + 28 + 6 + 12 + 36 = 195 3. Divide the sum by 11 195/11 = 17 remainder 8 4.
Index Check digits/checksums.. 36, 40, 41, 42, 46, 48 and Accumulate mode.............................. 25 Code 39 .................................................... 12 Interleaved 2 of 5 ..................................... 15 MSI Code ................................................. 15 UPC/EAN................................................. 13 Codabar ......................................................... 39 CLSI Format ............................................ 15 default settings .............
F45-1 Dual Serial Cable.................................. 7 Failed transmissions........................................ 3 Fixing substitution - laser read...................... 20 Foreign keyboards......................................... 18 Full ASCII Code 39 about ......................................................... 37 default settings ......................................... 12 Full ASCII Extension to Code 39 ................. 37 Full ASCII hex values...................................
Reset ......................................................... 19 Set ID character........................................ 18 Stop bits.................................................... 21 Terminator Character ............................... 16 Transmission mode .................................. 21 UPC/EAN................................................. 13 Shipping Serial Container Code.................... 14 Small quiet zones options ............................. 19 Special key scanning codes.........