User's Manual
Table Of Contents
- Introduction
- The Integrator’s Task
- Installing the Modem
- Mounting the Boomer II OEM Modem to Your Device
- Connecting the Data Interface Port
- Selecting & Positioning the Antenna
- Supplying Power
- Using the Modem Test Jig
- Software Development Tools
- Integration Testing
- Appendix A - NCL Interface
- Appendix B – SDK NCL-API and Port Server
- Multisession API
- Application Interface
- _
- Opening a Session
- Close Session
- Send Data to a Radio Host
- Receive Data From RPM
- Get RPM Status Information
- Set Configuration ITEMS Within the RPM
- Reset RPM
- Register Event Callback Function
- Enable / Disable Events
- Get Error Description
- Register Wakeup Application
- Deregister Wakeup Application
- Switch RPM On/Off
- Send Generic NCL Command To RPM
- Get Software Version
- _
- A
- Appendix C – SDK Sample programs
- Appendix D - Application Development
- Appendix E - Message Routing and Migration
- Appendix F – Guide to Desense
- Appendix G - Numeric Conversion Chart
- Appendix H - Specifications
- Appendix I - Glossary
APPENDIX G - Numeric Conversion Chart _______________________ Boomer II User Manual & Integrator’s Guide
Copyright Wavenet Technology © November 2003 140 BM210012WT37
Appendix G - Numeric Conversion Chart
Binary/Octal/Decimal/Hex/C/ASCII Conversion Table
Binary Oct Dec Hex C ASCII Definition Binary Oct Dec Hex C ASCII
00000000 000 0 00 C NUL Null, or all zeros 01000000 100 64 40 P @
00000001 001 1 01 C SOH Start of Heading 01000001 101 65 41 UX A
00000010 002 2 02 C STX Start of Text 01000010 102 66 42 UX B
00000011 003 3 03 C ETX End of Text 01000011 103 67 43 UX C
00000100 004 4 04 C EOT End of Transmission 01000100 104 68 44 UX D
00000101 005 5 05 C ENQ Enquiry 01000101 105 69 45 UX E
00000110 006 6 06 C ACK Acknowledge 01000110 106 70 46 UX F
00000111 007 7 07 C BEL Bell 01000111 107 71 47 U G
00001000 010 8 08 C BS Backspace 01001000 110 72 48 U H
00001001 011 9 09 CS HT Horizontal Tab 01001001 111 73 49 U I
00001010 012 10 0A CS LF Line Feed 01001010 112 74 4A U J
00001011 013 11 0B CS VT Vertical Tab 01001011 113 75 4B U K
00001100 014 12 0C CS FF Form Feed 01001100 114 76 4C U L
00001101 015 13 0D CS CR Carriage Return 01001101 115 77 4D U M
00001110 016 14 0E C SO Shift Out 01001110 116 78 4E U N
00001111 017 15 0F C SI Shift In 01001111 117 79 4F U O
00010000 020 16 10 C DLE Data Link Escape 01010000 120 80 50 U P
00010001 021 17 11 C DC1 Device Control 1 (XON) 01010001 121 81 51 U Q
00010010 022 18 12 C DC2 Device Control 2 01010010 122 82 52 U R
00010011 023 19 13 C DC3 Device Control 3 (XOFF) 01010011 123 83 53 U S
00010100 024 20 14 C DC4 Device Control 4 01010100 124 84 54 U T
00010101 025 21 15 C NAK Negative Acknowledge 01010101 125 85 55 U U
00010110 026 22 16 C SYN Synchronous Idle 01010110 126 86 56 U V
00010111 027 23 17 C ETB End Transmission Block 01010111 127 87 57 U W
00011000 030 24 18 C CAN Cancel 01011000 130 88 58 U X
00011001 031 25 19 C EM End of Medium 01011001 131 89 59 U Y
00011010 032 26 1A C SUB Substitute 01011010 132 90 5A U Z
00011011 033 27 1B C ESC Escape 01011011 133 91 5B P [
00011100 034 28 1C C FS File Separator 01011100 134 92 5C P \
00011101 035 29 1D C GS Group Separator 01011101 135 93 5D P ]
00011110 036 30 1E C RS Record Separator 01011110 136 94 5E P ^
00011111 037 31 1F C US Unit Separator 01011111 137 95 5F P _
00100000 040 32 20 S SP Space 01100000 140 96 60 P `
00100001 041 33 21 P ! 01100001 141 97 61 LX a
00100010 042 34 22 P " 01100010 142 98 62 LX b
00100011 043 35 23 P # 01100011 143 99 63 LX c
00100100 044 36 24 P $ 01100100 144 100 64 LX d
00100101 045 37 25 P % 01100101 145 101 65 LX e
00100110 046 38 26 P & 01100110 146 102 66 LX f
00100111 047 39 27 P ' 01100111 147 103 67 L g
00101000 050 40 28 P ( 01101000 150 104 68 L h
00101001 051 41 29 P ) 01101001 151 105 69 L i
00101010 052 42 2A P * 01101010 152 106 6A L j
00101011 053 43 2B P + 01101011 153 107 6B L k
00101100 054 44 2C P , 01101100 154 108 6C L l
00101101 055 45 2D P - 01101101 155 109 6D L m
00101110 056 46 2E P . 01101110 156 110 6E L n
00101111 057 47 2F P / 01101111 157 111 6F L o
00110000 060 48 30 NX 0 01110000 160 112 70 L p
00110001 061 49 31 NX 1 01110001 161 113 71 L q
00110010 062 50 32 NX 2 01110010 162 114 72 L r
00110011 063 51 33 NX 3 01110011 163 115 73 L s
00110100 064 52 34 NX 4 01110100 164 116 74 L t
00110101 065 53 35 NX 5 01110101 165 117 75 L u
00110110 066 54 36 NX 6 01110110 166 118 76 L v
00110111 067 55 37 NX 7 01110111 167 119 77 L w
00111000 070 56 38 NX 8 01111000 170 120 78 L x
00111001 071 57 39 NX 9 01111001 171 121 79 L y
00111010 072 58 3A P : 01111010 172 122 7A L z
00111011 073 59 3B P ; 01111011 173 123 7B P {
00111100 074 60 3C P < 01111100 174 124 7C P |
00111101 075 61 3D P = 01111101 175 125 7D P }
00111110 076 62 3E P > 01111110 176 126 7E P ~
00111111 077 63 3F P ? 01111111 177 127 7F C DEL