HI-505SD Bluetooth® GPS Receiver with SD interface USER MANUAL
1 To insert in: Push down to the end and hear a “click” sound 1 2 To take it out: Push down to the end 1 and HI-505SD will spring up 2 Take out the device
1 HI-505SD Bluetooth® GPS receiver with SD (Security Digital) interface Introduction: HI-505SD is a standard Bluetooth® GPS receiver with standard miniSD™ to SD adaptor. HI-505SD equipped with the most recent 20 channel ultra high sensitive SiRF StarIII GPS chipsets and wireless Bluetooth® module. Simply plug HI-505SD into any devices equipped with the standard SD slot, user can instantly enjoy the state of the art wireless GPS navigation.
2 HI-505SD advantages: 1. Simply plug in the HI-505SD into any SD slot from the standard mobile device with Bluetooth® features, the device become the all-in-one GPS navigator. HI-505SD provides the flexibility for GPS enable in different devices and different occasion usages. 2. Unlike other SD GPS receivers occupied the SD slot, HI-505SD allow user to use any memory size miniSD™ card while using the HI-505SD simultaneously. 3.
3 Accessories: Standard Accessories: model # Model Name 1. HI-505SD Bluetooth® GPS receiver unit HI-505SD 2. Tool CD CDR-01 3.
4 Optional Accessories: 1. Adapting box 2. MMCX External antenna 3.
5 ® HI-505SD Bluetooth GPS receiver installed on cigarette lighter outlet MMCX external Bluetooth® / GPS antenna plug status LED LED Indicator (Red) LED Indicator (Blue) LED off LED off Receiver switch off Bluetooth® switch off LED flashing GPS Position Fixed LED flashing Bluetooth® searching LED stay on GPS Signal searching LED stay on Bluetooth® connected 5
6 HI-505SD on a PDA: A complete all-in-one GPS navigator HI-505SD + PDA with horizontal mapping software 6
7 HI-505SD with PDA phone as a all-in-one GPS navigator HI-505SD with laptop PC with SD Slot 7
8 HI-505SD + PDA as a portable navigator 8
9 Dimension: 34mm 46mm 13mm 18mm 80mm 24mm 43mm 20mm 18mm 9
10 GPS Receiver Specification Chipset SiRF Star III Interfaces Bluetooth & Mini-1394 Protocol NMEA0183 GGA, GSA, GSV, RMC, GLL Baud Rate 4800, N, 8, 1 Max. Update Rate 1 Hz Datum WGS84 Channel 20 channel Frequency L1, 1575.42MHz Hot Start 8 sec. Average Warm Start 38 sec. Average Cold Start 48 sec. Average Reacquisition Tike 100 ms Position Accuracy 15m 2D RMS, SA off Macimum Altitude 18,000m Maximum velocity 515m/s Voltage DC 3.
11 Bluetooth® Specifications: ® Bluetooth V1.1 Compliances Frequency Range: 2.4 ~ 2.4835 GHz unlicensed ISM band Interface: USB/UART/SPI Receiver Sensetivity: -80 dBm @ 0.1% BER Transmitting Power: Class 2 -6 dBm ~ +4 dBm RF Input Impedance: 50 ohms Frequency hopping: 1600hops/sec.
12 HI-505SD as a regular GPS mouse: By connection different optional connecting cables, HI-505SD can be all kinds of independent wired GPS receiver solutions.
13 Connecting to a Notebook Connect HI-505SD to your Notebook as a USB GPS Receiver 13
14 Disassemble Step 1: Turn the silver knob down to the end Step 2: The silver knob spring out Step 3: Separate the two parts 14
15 Assemble Step 1: Put two parts in position Step 2: Push the silver knob in * Make sure two triangle align during disassemble or assemble Step 3: Turn the silver knob back to other end 15
16 Bluetooth® Installation Follow the instructions below to link HI-505SD to a PDA (Personal Digital Assistant). 1. Activate “Bluetooth Manager” on your pocket PC. Tap New, Connect, to access other devices via Bluetooth.
17 2. Search Bluetooth device “HI-505SD”. Select Explore a Bluetooth device, and tap Next. 3. Search for the Bluetooth device.
18 4. To establish Bluetooth link, select Connect to SPP Slave, tap Next and then Finish. 5. Tap HAICOM BT GPS:SPP slave, and select Connect from the dropdown menu. The installation has been completed.
19 For Connected with device Select the correct com port Start GPS, NMEA message inflow More satellites info 19
20 GPS Technical Data ONE-PULSE-PER-SECOND (1PPS) OUTPUT The one-pulse-per-second output is provided for applications requiring precise timing measurements. The output pulse is 1usec in duration. Rising edge of the output pulse is accurate to +/-1usec with respect to the start of each GPS second. Accuracy of the one-pulse-per-second output is maintained only when the GPS receiver has valid position fix. The 1PPS output is always generated when the GPS receiver is powered-on.
21 SOFTWARE INTERFACE This section describes the details of the serial port commands through which the GPS module is controlled and monitored. The serial port commands allow users to set the receiver parameters, configure output message type, and retrieve status information. The baud rate and protocol of the host COM port must match the baud rate and protocol of the GPS receiver serial port for commands and data to be successfully transmitted and received.
22 NMEA Messages The serial interface protocol is based on the National Marine Electronics Association's NMEA 0183 ASCII interface specification. This standard is fully define in "NMEA 0183, Version 3.01" The standard may be obtained from NMEA, www.nmea.org GGA - GPS FIX DATA Time, position and position-fix related data (number of satellites in use, HDOP, etc.). Format: $GPGGA,<1>,<2>,<3>,<4>,<5>,<6>,<7>,<8>,<9>, M,<10>,M,<11>,<12>,*<13> Example: $GPGGA,104549.04,2447.2038,N,12100.
23 Field Example 1 104549.04 2 2447.2038 3 N 4 12100.4990 5 E 6 1 Description UTC time in hhmmss.ss format, 000000.00 ~ 235959.99 Latitude in ddmm.mmmm format Leading zeros transmitted Latitude hemisphere indicator, 'N' = North, 'S' = South Longitude in dddmm.
24 GLL - LATITUDE AND LONGITUDE, WITH TIME OF POSITION FIX AND STATUS Latitude and longitude of current position, time, and status. Format: $GPGLL,<1>,<2>,<3>,<4>,<5>,<6>,<7>*<8> Example: $GPGLL,2447.2073,N,12100.5022,E,104548.04,A, A*65 Field Example 1 2447.2073 2 N 3 12100.5022 4 E 5 104548.04 6 A 7 A Description Latitude in ddmm.mmmm format Leading zeros transmitted Latitude hemisphere indicator, 'N' = North, 'S' = South Longitude in dddmm.
25 GSA - GPS DOP AND ACTIVE SATELLITES GPS receiver operating mode, satellites used for navigation, and DOP values. Format: $GPGSA,<1>,<2>,<3>,<3>,<3>,<3>,<3>,<3>,<3>,<3>, <3>,<3>,<3>,<3>,<4>,<5>,<6>*<7> Example: $GPGSA,A,3,26,21,,,09,17,,,,,,,10.8,02.1,10.6*07 Field Example 1 A Mode, 'M' = Manual, 'A' = Automatic 2 3 Fix type, 1 = not available, 3 26,21,,,09, Description 2 = 2D fix, 3 = 3D fix 17,,,,,, 4 10.8 5 02.1 6 10.
26 GSV - GPS SATELLITE IN VIEW Number of satellites in view, PRN number, elevation angle, azimuth angle, and C/No. Only up to four satellite details are transmitted per message. Additional satellite in view information is sent in subsequent GSV messages. Format: $GPGSV,<1>,<2>,<3>,<4>,<5>,<6>,<7>, ...
27 RMC - RECOMMANDED MINIMUM SPECIFIC GPS/TRANSIT DATA Time, date, position, course and speed data. Format: $GPRMC,<1>,<2>,<3>,<4>,<5>,<6>,<7>,<8>,<9>,<10>, <11>,<12>*<13> Example: $GPRMC,104549.04,A,2447.2038,N,12100.4990,E, 016.0,221.0,250304,003.3,W,A*22 Field Example 1 104549.04 2 A 3 2447.2038 4 N 5 12100.4990 6 E 7 8 9 10 11 12 016.0 221.0 250304 003.3 W A 13 22 Description UTC time in hhmmss.ss format, 000000.00 ~ 235959.
28 VTG - COURSE OVER GROUND AND GROUND SPEED Velocity is given as course over ground (COG) and speed over ground (SOG). Format: GPVTG,<1>,T,<2>,M,<3>,N,<4>,K,<5>*<6> Example: $GPVTG,221.0,T,224.3,M,016.0,N,0029.6,K,A*1F Field Example 1 221.0 2 224.3 3 016.0 4 0029.6 5 A Description True course over ground, 000.0 ~ 359.9 degrees Magnetic course over ground, 000.0 ~ 359.9 degrees Speed over ground, 000.0 ~ 999.9 knots Speed over ground, 0000.0 ~ 1800.
29 Notice : The changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
