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Ultimate Technology 500 POS manual

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Table of contents for the manual

  • Page 1

    SERIES 500 POS KEYBOARD PROGRAMMING & USER’S GUIDE[...]

  • Page 2

    Series 500 POS Keyboard SERIES 500 QUICK REFERENCE GUIDE to KEY PROGRAMMING To Program a Primary Key 1. Swipe Programmer’s Card through Mag Card Reader. 2. Type 00 on the numeric keypad on the Series 500 Keyboard. 3. Press the key on the Series 500 Keyboard that you wish to program. 4. Type the desired key sequence on the AUX (PS/2) keyboard. 5. [...]

  • Page 3

    Series 500 POS Keyboard TABLE OF CONTENTS SCOPE ........................................................................................................... vi SPECIAL NOTE ............................................................................................. vi PRODUCT INFORMATION .............................................................[...]

  • Page 4

    Series 500 POS Keyboard MAINTENANCE ............................................................................................ 58 PRECAUTIONS ............................................................................................................. 58 CLEANING ....................................................................................[...]

  • Page 5

    Series 500 POS Keyboard APPENDIX A SERIES 500 POS STANDARD KEYBOARD LAYOUTS A1 APPENDIX B KEYBOARD CABLE/CONNECTOR DATA B1 APPENDIX C ASC11 CHARACTER SET C1 APPENDIX D 101/102 - KEY KE YBOARD KEY NUMBER TO SCAN CODE CROSS REFERENCE D1 LIST OF TABLES TABLE 1. SERIES 500 POS KEYBOARD - TYPICAL CONTROLS AND INDICATORS 8 TABLE 2. LOCAL MODE PROGRAMMING[...]

  • Page 6

    Series 500 POS Keyboard FEDE RAL COMMUNICATIONS COMMISSION RADIO FREQUENCY INTERFERENCE STATEMENT • Reorient the radio or t elevision receiving antenna • Relocate the keyboard with respect to the receiver • Move the keyboard away from the receiver If necessary the user should consult the dealer or an experienced radio/television technician fo[...]

  • Page 7

    Series 500 POS Keyboard SCOPE This user's guide provides the information and procedures needed to install, operate and program your Series 500 POS Keyboard. Differences in models and optional features are described in this manual, where appli cable. It is suggested that the entire manual be read before attempting installation or programming. I[...]

  • Page 8

    Series 500 POS Keyboard Figure 1. Typical Point - of - Sale station with standard QWERTY Series 500 keyboard[...]

  • Page 9

    2 PRODUCT INFORMATION MODEL D ESCRIPTION Series 500 POS Keyboards are point - of - sale (POS) keyboards designed for use with a PC or ASCII terminal. These keyboards have total flexibility in keyboard layout coupled with an extensive programming capability. Each keyboard contains a buil t - in magnetic stripe reader (MSR), two serial ports, two cas[...]

  • Page 10

    2 OPTIONAL PEDESTAL MOUNT[...]

  • Page 11

    3 SPECIFICATIONS DIMENSIONS • Depth - 8 Inches • Width - 1 3 Inches • Height - 3 Inches WEIGHT • 3.5 pounds (avg) ELECTRICAL • 135 - 185mA at 5VDC (supplied from host) • 3 - volt lithium battery (battery backup for memory data retention when host source voltage removed) ENVIRONMENT • Storage temperature - 20° to 70°C ( - 68° to 158[...]

  • Page 12

    4 INSTALLATION UNPACKING AND INSPECTION 1. Examine the exterior of the shipping carton for signs of abuse or damage that may have occurred during transport. Report all evidence of damage or abuse to shipper and dealer. 2. Open top of shipping carton and carefully remove the keyboard and accessories. 3. Remove shipping retainers and protective cover[...]

  • Page 13

    5 EXTERNAL CONNECTIONS As required by the hardware configuration, connect the keyboard to i ts host computer and other peripheral devices as shown in Figures 2 and 3. Note that the specific use for each connector on the keyboard is marked adjacent to each connector. Depending on the make and model of the user's equipment, the following cables [...]

  • Page 14

    6 Main RS232 Port Aux RS232 Port Cash Drawer 1 (Driver) Port In Cash Drawer 1 (Driver) Port Out Cash Drawer 2 (Drawer) Port In Cash Drawer 2 (Drawer) Port Out Drawer Type Jumpers Main KB Port Aux KB Port Bar Code Scanner Receipt Printer Cash Drawer Port 1 & 2 Cash Drawer 1 Cash Drawer 2 PC or Terminal PS2 Type KB CAB20138 CAB20138 CAB20133 or C[...]

  • Page 15

    7 Figure 2. Typical keyboard external connections[...]

  • Page 16

    8 Figure 3. Keyboard external connectors - rear view[...]

  • Page 17

    9 OPERATION CONTROLS AND INDICATORS Operating controls and indicators on the Series 500 Standard QWERTY Keyboard are shown in Figure 4 and described in Table 1. Because most Ser ies 500 POS Keyboards are customized to match the user's needs, keyboard layouts and the function of the keys may vary widely from the one shown in Figure 4. Although [...]

  • Page 18

    10 Figure 4. Series 500 POS keyboard - typical controls and indicators Table 1. Series 500 POS Keyboard - Typical Controls and Indicators (See Figure 4) Index No. Name Function 1 thro ugh 3 Light Emitting Diode (LED) Indicators LED (1) SECURE - When on, indicates keyboard is secured(locked); when off, indicates keyboard is unlocked. LED (2) When on[...]

  • Page 19

    11 All Other User Defined Keys User defined keys programmed by user/developer.[...]

  • Page 20

    12 PROGRAMMING PROGRAMMING KEYBOARD OPERATING PARAMETERS The operating parameters of the keyboard can be configured (programmed) remotely from the host computer or locally at the keyboard. Keyboard programming in the remote mode sets the keyboard parameters as commanded by the host computer input applied at the main communications port. Selection o[...]

  • Page 21

    13 Table 2. Local Mode Programming Function Codes and Default Settings 11 MSR Channel 1,3 Field Separator ^ (5Eh) for format 1 = (3Dh) for format 3 Used to send a field separator between fields of the magnetic card chan nel. 12 MSR Channel 1,3 Suffix ?<CR> (3Fh,0Dh) for both format 1 and 3 Used to send suffixes after the magnetic card channel[...]

  • Page 22

    14 Table 2. Local Mode Programming Function Codes and Default Settings 24 RS232 Port 0 Word Length User defined Used to change the word length, 7 or 8 bits, of the data at Port 0. 25 RS232 Port 0 Prefix None Used to place a prefix before the packet of data before it is sent out of th e keyboard Main Port. (This function is inactive if Port 0 is the[...]

  • Page 23

    15 Table 2. Local Mode Programming Function Codes and Default Settings secure (lo ck). 41 Keyswitch Position 2 BREAK No output Used to program the BREAK codes of the keyswitch. When the key is turned out of position 2, the switch can send macros and/or perform an internal secure (lock). 42 Keyswitch Position 3 MAKE No output Used to program the MAK[...]

  • Page 24

    16 Table 2. Local Mode Programming Function Codes and Default Settings 71 Enable/Disable Key Clicks On Enables or disables audible key clicks. 0 = off; 1 = on 80 Define Left Shift Key Key 44 See illustration in Appendix D If auxiliary keyboard connected to the Series 500 Keyboard is o ther than a standard 101 or 102 - key keyboard, used to define w[...]

  • Page 25

    17 Table 2. Local Mode Programming Function Codes and Default Settings one keyboard. It is also useful for remote keyboard setup and when making changes in key codes. To download keyboard settings, refer to the procedure given at the rear of the Programming Section in this manual. 99 Exit Program Mode None Used to terminate the programming mode. Wh[...]

  • Page 26

    18 LOCAL MOD E PROGRAMMING INSTRUCTIONS To program the Series 500 Keyboard in the local mode proceed as follows: 1. Swipe the Programmer's card supplied with the keyboard in the magnetic stripe reader (MSR). For Series 500 Keyboards equipped with the optional 3 - positi on keyswitch adjacent to the LED indicators, set the switch to the AUX pos[...]

  • Page 27

    19 Table 3. Local Mode Programming Instructions - Continu ed Note: *Default Settings Function Code(s) Operation Normal Indication Remarks 00 01 Program Primary Key Functions (00) and Secondary Key Functions (01) NOTE The keys can be programmed to have primary and secondary levels of function. The prim ary function is activated when only the designa[...]

  • Page 28

    20 Table 3. Local Mode Programming Instructions - Continu ed Note: *Default Settings Function Code(s) Operation Normal Indication Remarks position keyswitch, move switch out of the AUX position. 02 Copy Primary Key Fu nctions to Secondary Key Positions 1. While in programming mode, at the Series 500 Keyboard numeric keypad, enter Function Code 02. [...]

  • Page 29

    21 Table 3. Local Mode Programming Instructions - Continu ed Note: *Default Settings Function Code(s) Operation Normal Indication Remarks Note: Disabling all format tra cks will not disable the secure or programming operations. 09 Magnetic Stripe Reader (MSR) Beeper 1. While in programming mode, at the Series 500 Keyboard numeric keypad, enter Func[...]

  • Page 30

    22 Table 3. Local Mode Programming Instructions - Continu ed Note: *Default Settings Function Code(s) Operation Normal Indication Remarks the Programmer's card. If using the optional 3 - position keyswitch, move switch out of the AUX position. 14 15 16 Magnetic Stripe Reader (MSR) Channel 2 Prefix (14) Field Separator (15) Suffix (16) 1. While[...]

  • Page 31

    23 Table 3. Local Mode Programming Instructions - Continu ed Note: *Default Settings Function Code(s) Operation Normal Indication Remarks 4. Program the next function code or exit programming mode by entering 99 on Series 500 Keyboard numeric keypad or by swiping the Programmer's card. If using the optional 3 - pos ition keyswitch, move switch[...]

  • Page 32

    24 Table 3. Local Mode Programming Instructions - Continued Note: *Default Settings Function Code(s) Operation Normal Indication Remarks 21 or 31 Main Port 0 (21) AUX Port 1 (31) Stop Bits 1. While in programming mode, at Series 500 Keyboard numeric keypad, enter Function Code 21 (Port 0) or 31 (Port 1). LED (2) turns on. 2. At Series 500 Keyboard [...]

  • Page 33

    25 Table 3. Local Mode Programming Instructions - Continued Note: *Default Settings Function Code(s ) Operation Normal Indication Remarks 23 or 33 Main Port 0 (23) AUX Port 1 (33) Handshaking 1. While in programming mode, at Series 500 Keyboard numeric keypad, enter Function Code 23 (Port 0) or 33 (Port 1). LED (2) turns on. 2. At Series 500 Ke ybo[...]

  • Page 34

    26 Table 3. Local Mode Programming Instructions - Continued Note: *Default Settings Function Code(s) Operation Normal Indication Remarks 25 or 35 Comm (RS232) Main Port 0 (25) AUX Port 1 (35) Prefix 1. While in programming mode , at the Series 500 Keyboard numeric keypad, enter applicable Function Code 25 (Port 0) or 35 (Port 1). LED (2) flashes. 2[...]

  • Page 35

    27 Table 3. Local Mode Programming Instructions - Continued Note: *Default Settings Function Code(s) Operation Normal Indication Remarks 39 40 41 42 43 Keyswitch Position 1 MAKE (38) Keyswitch Position 1 BREAK (39) Keyswitch Position 2 MAKE (40) Keyswitch Position 2 BREAK (41) Keyswitch Position 3 MAKE (42) Keyswitch Position 3 BREAK (43) numeric k[...]

  • Page 36

    28 Table 3. Local Mode Programming Instructions - Continued Note: *Default Settings Function Code(s) Operation Normal Indication Remarks 45 46 47 48 Drawer 1 Open (45) Closed (46) Drawer 2 Open (47) Closed (48) 1. While in programming mode, at the Series 500 Keyboard numeric keypad, enter applicable Function Code 45, 46, 47 or 48 . LED (2) flashes.[...]

  • Page 37

    29 Table 3. Local Mode Programming Instructions - Continued Note: *Default Settings Function Code(s) Operation Normal Indi cation Remarks 70 Indicator LED Mode (70) 1. While in programming mode, at Series 500 Keyboard numeric keypad, enter Function Code 70 . LED (2) turns on. 2. At Series 500 Keyboard numeric keypad, enter the applicable number (0 [...]

  • Page 38

    30 Table 3. Local Mode Programming Instructions - Continued Note: *Def ault Settings Function Code(s) Operation Normal Indication Remarks 80 81 Define Position of Left SHIFT Key (80) and Right SHIFT Key (81) 1. While in programming mode, at the Series 500 Keyboard numeric keypad, enter Function Code 80 or 81 . LED (2) flashes . 2. At the auxiliary [...]

  • Page 39

    31 Table 3. Local Mode Programming Instructions - Continued Note: *Def ault Settings Function Code(s) Operation Normal Indication Remarks on Series 500 Keyboard numeric keypad or by swiping the Programmer's card. If using the optional 3 - position keyswitch, move switch out of the AUX position. 90 Dump System Log This is a command used to read[...]

  • Page 40

    32 Table 3. Local Mode Programming Instructions - Continued Note: *Default Settings Function Code(s) Operation Normal Indication Remarks 97 Default Keyboard 1. While in programming mode, at Series 500 Keyboard numeric keypad, enter Function Code 97 . LED (2) turns on. 2. At Series 500 Keyboard numeric keypad, enter the applicable number (0 or 1) to[...]

  • Page 41

    33 Table 4. Local Programming Commands For Key MAKE/BREAK And Extended Functions SERIES 500 KEYBOARD NUMERIC KEYPAD NO. DESCR IPTION 0 Aborts changes to macros. 1 Defines where the output of MAKE codes end and BREAK codes start. Prior to this command, all codes are sent when the keys are pressed (MAKE codes). After command, all codes are sent when [...]

  • Page 42

    34 3. At the Series 500 Keyboard, press the key to be programmed. 4. At the auxilia ry keyboard, press and hold the "A" key. 5. At the Series 500 Keyboard numeric keypad, enter 1. 6. At the auxiliary keyboard, release the "A" key. 7. At the Series 500 Keyboard, press ENTER to complete programming of the key. 8. Repeat steps 3 th[...]

  • Page 43

    35 5. At the Series 500 Keyboard, press ENTER to complete programming of the key. 6. Repeat steps 3 through 5 to program another key. 7. To exit the programming mode, enter 00 99 a t the Series 500 Keyboard numeric keypad. EXAMPLE 4. This example erases the macro from the primary and/or secondary key position on the Series 500 Keyboard. 1. Place th[...]

  • Page 44

    36 PROGRAMMING IN REMOTE MODE Programming in the remote mode requires the use of a supplemental program that is run on the host computer. If using an IBM PC or compatible computer as the host, use program supplied by Ultimate Technology Corporation when programming the keyboard. To load and use the program, follow the instructions supplied with the[...]

  • Page 45

    37 NOTE Always apply the COMMIT command (OP Code B4) after progr amming the keyboard remotely to save the changes in the NVRAM. Failure to use the COMMIT command after making programming changes will result in the loss of the changes the first time power is removed from the keyboard.[...]

  • Page 46

    38 Table 5. Remote Programming Mode Commands - Continued OP CODE (HEX) MNEMONIC/DESCRIPTION COMMAND/ACKNOWLEDGEMENT A0 MACROK Download all key macros for Series 500 Keyboard. Refer to Table 6 for further explanation. COMMAND: A0krcCxDx....... <CR> A0 = Op Code k = P to program Primary key = S to program Secondary key Missing means program bot[...]

  • Page 47

    39 Table 5. Remote Programming Mode Commands - Continued OP CODE (HEX) MNEMONIC/DESCRIPTION COMMAND/ACKNOWLEDGEMENT A1 MACROP Download macros for prefix/suffix. COMMAND: A1aC xDx.......<CR> A1 = Op Code a = macro to load in ASCII range A - Z listed below Cx = key number (refer to Appendix D) Dx = key number (refer to Appendix D) <CR> = [...]

  • Page 48

    40 Table 5. Remote Programming Mode Commands - Continued OP CODE (HEX) MNEMONIC/DESCRIPTION COMMAND/ACKNOWLEDGEMENT A2 SNDDLY Determines rate of delay in milliseconds for sending macros. This command used when interfacing with slow systems. COMMAN D: A2CxDx<CR> A2 = Op Code Cx = hex value for low nibble Dx = hex value for high nibble Range = [...]

  • Page 49

    41 Table 5. Remote Programming Mode Commands - Continued OP CODE (HEX) MNEMONIC/DESCRIPTION COMMAND/ACKNOWLEDGEMENT A3 COMMP Communications setup for selecting ports, baud rate, word length, stop bits, parity, and method of handshaking. COMMAND: A3Pbbbbbwsph<CR> A3 = Op Code P = destination port for load bbbbb = baud rate W = word length 7 or[...]

  • Page 50

    42 OP CODE (HEX) MNEMONIC/DESCRIPTION COMMAND/ACKNO WLEDGEMENT A5 SPCDEF Define where SHIFT, CONTROL, and ALTERNATE keys are located on auxiliary keyboard. COMMAND: A5xCxDx<CR> A5 = Op Code x = 1 right shift = 2 left shift = 3 right control = 4 left control = 5 right alternate = 6 left alternate Cx = key number (refer to Appendix D) Dx = key [...]

  • Page 51

    43 Table 5. Remote Programming Mode Commands - Continued OP CODE (HEX) MNEMONIC/DESCRIPTION COMMAND/ACKNOWLEDGEMENT A8 NVBDWR Wri te a database register. COMMAND: A8hhhxx..x<CR> A8 = Op Code hhh = 3 character address representing the register to write xx = data to write in ASCII or CxDx pairs (16 bytes max.) <CR> = terminate command (0D[...]

  • Page 52

    44 Table 5. Remote Programming Mode Commands - Continued OP CODE (HEX) MNEMONIC/DESCRIPTION COMMAND/ACKNOWLEDGEMENT AF COMMENT Use when notes or comments are to be placed in the download file. All data is ignored u p to the carriage return <CR>. COMMAND: AFxxxx - xxxx<CR> AF = Op Code xx = Comments <CR> = terminate command (0D hex[...]

  • Page 53

    45 Table 5. Remote Programming Mode Commands - Continued OP CODE (HEX) MNEMONIC/DESCRIPTION COMMAND/ACKNOWLEDGEMENT B1 BEEPON Controls pitch and duration of beep. If valued for pitch (p) and duration (d) omitted when command activat ed. COMMAND: B1pd<CR> B1 = Op Code p = pitch in Hz d = duration in milliseconds <CR> = terminate command [...]

  • Page 54

    46 Table 5. Remote Programming Mode Commands - Continued OP CODE (HEX) MNEMONIC/DESCRIPTION COMMAND/ACKNOWL EDGEMENT B2 SENDP Sends data to selected port: main serial port, auxiliary serial port, or auxiliary keyboard port. COMMAND: B2p...........<CR> B2 = Op Code p = data destination port <CR> = terminate command (0D hex) p: 0 = serial[...]

  • Page 55

    47 Table 5. Re mote Programming Mode Commands - Continued OP CODE (HEX) MNEMONIC/DESCRIPTION COMMAND/ACKNOWLEDGEMENT B4 COMMIT Writes programming changes to the NVRAM. Always apply the COMMIT command after programming the keyboard to save the changes in the NVRAM. Failure to use the COMMIT command will result in the loss of the changes the first ti[...]

  • Page 56

    48 Table 5. Remote Progr amming Mode Commands - Continued OP CODE (HEX) MNEMONIC/DESCRIPTION COMMAND/ACKNOWLEDGEMENT B8 MSRSND Use to send magnetic card reader track data for any one good track or if both tracks are good. COMMAND: B8x<CR> B8 = Op Code x A = send any good tra ck B = send if both tracks are good <CR> = terminate command ([...]

  • Page 57

    49 Table 5. Remote Programming Mode Commands - Continued OP CODE (HEX) MNEMONIC/DESCRIPTION COMMAND/A CKNOWLEDGEMENT BA BEEPRD Selects magnetic card read annunciation mode. COMMAND: BAp<CR> BA = Op Code p = annunciation mode select <CR> = terminate command (0D hex) Annunciation selection: A = beep on good read B = beep on bad read C = b[...]

  • Page 58

    50 Table 5. Remote Programming Mode Commands - Continued OP CODE (HEX) MNEMONIC /DESCRIPTION COMMAND/ACKNOWLEDGEMENT BC CDSTATUS Send cash drawer macros for open and closed drawer. COMMAND: BCp<CR> BC = Op Code p = selection control <CR> = terminate command (0D hex) Selection control: A = cash drawer 1 macros B = cash drawer 2 m acros C[...]

  • Page 59

    51 Table 5. Remote Programming Mode Commands - Continued OP CODE (HEX) MNEMONIC/DESCRIPTION COMMAND/ACKNOWLE DGEMENT BE VERSION Sends software version, engineering number, and keyboard type parameters. COMMAND: BE<CR> BE = Op Code <CR> = terminate command (0D hex) ACKNOWLEDGEMENT: BEnnnnnvvvvkkkkx - x<CR> BE = Op Code nnnnn = engi[...]

  • Page 60

    52 PROGRAMMING KEY MAKE/BREAK CODES There are two scan codes assigned to each key, one for when the key is depressed (MAKE code) and the other for when the key is released (BREAK code). Generally, all keys are programmed to output both MAKE and BREAK codes. The SHIFT, CONTROL and ALTERNATE keys are always programmed to output MAKE and BREAK codes s[...]

  • Page 61

    53 EXAMPLES OF REMOTE PROGRAMMING FOR KEY MAKE/BREAK CODE EXAMPLE 1. This example programs a key located at the top left - hand corner of the keyboard (row 1, column A) as a primary key that outputs the scan code for lowercase "z" on MAKE and BREAK. 1. Use the data in Appendix D to find the key code number for the "Z" key on the[...]

  • Page 62

    54 EXAMPLE 3. This example programs the key at top left - hand corner of keyboard (row 1, column A) as a primary key that outputs the scan code for lowercase "z" on MAKE only. 1. Use the data in Appendix D to find the key code number for the "Z" key on the 101/102 - keyboard. The "Z" key code number = 46 (decimal). 2. [...]

  • Page 63

    55 Parameters same as shown for example 1. EXAMPLE 6. This example programs key at top left - hand corner of keyboard (row 1, column A) as a primary key that outputs the string "abCd" for MAKE. 1. Use the data in Appendix D to find the key code numbers for the A, B, C and D keys on the 101/102 - keyboard. The key code numbers for the A, B[...]

  • Page 64

    56 COPYING KEYBOARD SETUP DATA (CLONING) Once a keyboard has been programmed, the parameters can be copied from the source keyboard to other keyboards. This feature saves time and reduces errors when programming more than one keyboard. It is also useful for remote keyboard setup and when making changes in key codes. Downloading of keyboard paramete[...]

  • Page 65

    57 2. At the source keyboard, swipe the Program mer's card in the magnetic stripe reader (MSR). For keyboards equipped with an optional 3 - position keyswitch adjacent to the LED indicators, set the switch to the AUX position, then enter 882 at the numeric keypad. 3. All LED indicators turn on and the k eyboard enunciator beeps three times. 4.[...]

  • Page 66

    58 MAINTENANCE The Series 500 POS Keyboard requires minimal routine maintenance. However, reasonable care of the keyboard will extend its life. The following precautions and routine maintenance actions are recommended. PRECAUTI ONS • Do not drop keyboard or allow it to be subjected to impact. • Keep liquids away from keyboard. Thin liquids, suc[...]

  • Page 67

    59 The key legends for full travel keyboards can be changed by one of two methods depending on the type of keys installed on the keyboard. For keys with legends permanently printed on the keys, the entire k eycap can be changed by placing a flat head screwdriver under the existing key and applying an upward pressure to aid in pulling off the key to[...]

  • Page 68

    60 1. Disconnect keyboard from system. 2. Turn keyboard over to gain access to 5 screws that secure the base of the keyboard case to the top. Remove the 5 screws. 3. Turn keyboard upright. Gain access to the battery by lifting the top portion of the keyboard assembly from the base and placing it and the attached extended cable/connectors in front o[...]

  • Page 69

    A 1 APPENDIX A SERIES 500 POS STANDARD KEYBOARD LAYOUTS 112 Key 3/4 - Inch Standard Layout[...]

  • Page 70

    A 2 144 Key Compact 5/8 - Inch Size and Flat Panel Membrane Standard Layout[...]

  • Page 71

    A 3 Compact 5/8 - Inch QWERTY Layout[...]

  • Page 72

    B 1 APPENDIX B KEYBOARD CABLE/CONNECTOR DATA BACK CONNECTOR PINOUTS MAIN RS232 DB9 FEMALE 1 N/C 2 TXD OUT 3 RXD IN 5 GND 6 N/C 7 CTS IN 8 RTS OUT 9 +5 VDC IN/OUT AUX RS232 DB9 MALE 1 N/C 2 RXD IN 3 TXD OUT 5 GND 6 N/C 7 RTS OUT 8 CTS IN 9 +5 VDC IN/OUT KEYBOARD MAIN 1 DATA 2 N/C 3 GND 4 +5 VDC IN/OUT 5 CLOCK 6 N/C ADAPTER CABLE PINOUTS CAB20135 CLO[...]

  • Page 73

    C 1 APPENDIX C ASCII CHARACTER SET 00 Ctrl - @ (NUL) 30 0 60 ‘ 01 Ctrl - A (SOH) 31 1 61 a 02 Ctrl - B (STX) 32 2 62 b 03 Ctrl - C (ETX) 33 3 63 c 04 Ctrl - D (EOT) 34 4 64 d 05 Ctrl - E (ENQ) 35 5 65 e 06 Ctrl - F (ACK) 36 6 66 f 07 Ctrl - G (BEL) 37 7 67 g 08 Ctrl - H (BS) 38 8 68 h 09 Ctrl - I (HT) 39 9 69 i 0A Ctrl - J (LF) 3A : 6A j 0B Ctrl [...]

  • Page 74

    D 1 APPENDIX D 101/102 - KEY KEYBOARD KEY NUMBER TO SCAN CODE CROSS REFERENCE 102 - Key Keyboard Key Number Position Layout KEY NUMBER (Decimal) KEY NUMBER (Hexadecimal) LEGEND SCAN CODE SET 1 SET 2 SET 3 1 01 ` 29/A9 0E/F0 0E 0E/F0 0E 2 02 1 02/82 16/F0 16 16/F0 16 3 03 2 03/83 1E/F0 1E 1E/F0 1E 4 04 3 04/8 4 26/F0 26 26/F0 26 5 05 4 05/85 25/F0 2[...]

  • Page 75

    D 2 KEY NUMBER (Decimal) KEY NUMBER (Hexadecimal) LEGEND SCAN CODE SET 1 SET 2 SET 3 7 07 6 07/87 36/F0 36 36/F0 36 8 08 7 08/88 3D/F0 3D 3D/F0 3D 9 09 8 09/89 3E/F0 3E 3E/F0 3E 10 0A 9 0A/8A 46/F0 46 46/F0 46 11 0B 0 0B/8B 45/F0 45 45/F0 45 12 0C - 0C/8C 4E/F0 4E 4E/F0 4E 13 0D = 0D/8D 55/F0 55 55/F0 55 15 0F Backspace 0E/8E 66/F0 66 66/F0 66 16 1[...]

  • Page 76

    D 3 KEY NUMBER (De cimal) KEY NUMBER (Hexadecimal) LEGEND SCAN CODE SET 1 SET 2 SET 3 35 23 G 22/A2 34/F0 34 34/F0 34 36 24 H 23/A3 33/F0 33 33/F0 33 37 25 J 24/A4 3B/F0 3B 3B/F0 3B 38 26 K 25/A5 42/F0 42 42/F0 42 39 27 L 26/A6 4B/F0 4B 4B/F0 4B 40 28 ; 27/A7 4 C/F0 4C 4C/F0 4C 41 29 ' 28/A8 52/F0 52 52/F0 52 42 2A No Key on 101 keyboard 2B/AB[...]

  • Page 77

    D 4 KEY NUMBER (De cimal) KEY NUMBER (Hexadecimal) LEGEND SCAN CODE SET 1 SET 2 SET 3 61 3D Space bar 39/B9 29/F0 29 29/F0 29 62 3E Right Alternate E 0 38/E0 B8 E0 11/E0 F0 11 39/F0 39 64 40 Right Control E0 1D/E0 9D E0 14/E0 F0 14 58/F0 58 75 4B Insert E0 52/E0 D2 E0 70/E0 F0 70 67/F0 67 76 4C Delete E0 53/E0 D3 E0 71/E0 F0 71 64/F0 64 79 4F ç E0[...]

  • Page 78

    D 5 KEY NUMBER (Decimal) KEY NUMBER (Hexadecimal) LEGEND SCAN CODE SET 1 SET 2 SET 3 97 61 Keypad 5 4C/CC 73/F0 73 73/F0 73 98 62 Keypad ê 50/D0 72/F0 72 72/F0 72 99 63 Keypad Ins ert 52/D2 70/F0 70 70/F0 70 100 64 Keypad * 37/B7 7C/F0 7C 7E/F0 7E 101 65 Keypad PgUp 49/C9 7D/F0 7D 7D/F0 7D 102 66 Keypad è 4D/CD 74/F0 74 74/F0 74 103 67 keypad PgD[...]

  • Page 79

    D 6 KEY NUMBER (Decimal) KEY NUMBER (Hexadecimal) LEGEND SCAN CODE SET 1 SET 2 SET 3 124 7C Print/SysRq E0 2A/E0 37 E0 B7/E0 AA E0 12 E0 7C/E0 F0 7C E0 F0 12 57/F0 57 125 7D Scroll Lock 46/C6 7E/F0 7E 5F/F0 5F 126 7E Pause/Break E1 1D/45 E1/ 9D C5 E1 14 77 E1 F0 14 F0 77 62/F0 62[...]

  • Page 80

    ULTIMATE TECHNOLOGY CORPORATION 100 Rawson Road VICTOR, NEW YORK 14564 Printed in U.S.A. 10190009 REV C 1/03 One Year Limited Service Warranty Terms & Conditions Ultimate Technology Corporation, 100 Rawson Road, Victor, NY 14564, warrants that the product shall be free fro m defects in material and workmanship for one year from the date of ship[...]