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LA000578A © 2006 Navman New Zealand. All rights reserved. 

Proprietary information and specifications subject to change without notice.

3.2.3 DIP switch 3 – BOOT from serial mode

DIP switch 3 interfaces with the BOOT pad of the module and allows the user to upgrade the 

Flash memory. For normal operation the switch should be set to off. To boot from the serial port 

the switch should be set to on. This switch is enabled by the internal switch SW3.3.

3.2.4 DIP switch 4 – GPIO1/W_TICKS input

DIP switch 4 interfaces to the GPIO1/W_TICKS pad of the module. The switch is typically 

off, but has no effect with the standard module’s software. This switch can be enabled by the 

internal switch SW3.4.

3.2.5 DIP switch 5 – RTC backup power enable

DIP switch 5 provides control of the RTC backup power to the module. When set to the on 

position, the RTC backup power is applied to the module, allowing the RTC and SRAM to 

continue being powered when the primary source is removed. The jumper JB5/6 must also be 

in place for the backup power to be supplied. This power supply will be supplied to the module 

even with the main power switch in the off position.

3.2.6 DIP switch 6 – Antenna preamp power select (3.3 V or 5/12 V)

Dip 

switch 6 provides control of the antenna preamp voltage applied to the module. The switch 

position determines the supply voltage (off = 3.3 V, on = 5/12 V). 

Switch 6 should be left in the 

3.3 V (off) position. 

The positions of switches 7 and 8 also need to be considered when using 

the preamp function. 

Note: the supplied antenna is a 3.3 V type.

3.2.7 DIP switch 7 – Antenna preamp power select (5 V or 12 V)

DIP switch 7 also controls the antenna preamp voltage applied to the module. If switch 6 is 

on, then switch 7 will determine the supply voltage to the active antenna (off = 12 V, on = 5 V). 

Switch 7 is not operational when switch 6 is in the 3.3 V (off) position.

3.2.8 DIP switch 8 – Antenna preamp power enable

DIP switch 8 provides the ability to enable/disable the antenna preamp voltage to the module 

depending on the antenna being used. Typically this switch is on, enabling 3 V to be applied to 

the active antenna supplied with the kit.

Figure 3-5 Internal layout of the development unit

ON/OFF switch

configuration DIP

 

switch

function LEDS

JB5/6

reset switch

serial port 1

serial port 2

timing connector

DR connector

DC power

JB10/11/12

voltage selection  

switch (3.3V or 5V)

JB1/2

JB3/4

JB13/14/15

test points E1 to E9

JB16/17

SW3

 

all off except SW3.3

Summary of Contents for AA003025-G

Page 1: ...upiter 30 20 channel GPS receiver module Development kit Guide AA003029 series Related products Jupiter 30 standard AA003025 G Related documents Jupiter 30 Data sheet LA000576 Jupiter 30 Product brief...

Page 2: ...h 3 BOOT from serial mode 8 3 2 4 DIP switch 4 GPIO1 W_TICKS input 8 3 2 5 DIP switch 5 RTC backup power enable 8 3 2 6 DIP switch 6 Antenna preamp power select 3 3 V or 5 12 V 8 3 2 7 DIP switch 7 An...

Page 3: ...on LEDs on front panel 9 Figure 3 6 Jupiter 30 adapter board 10 Figure 3 4 Pin layout of the clock out connector 11 Figure 4 1 Development unit test equipment 15 Tables Table 3 1 DIP switch settings 7...

Page 4: ...Windows based software presents the receiver s raw data in a geographical form allowing both detailed analysis and evaluation for both NMEA and SiRF Binary formats 2 0 Equipment This section provides...

Page 5: ...face cable A serial cable is provided to interface between the development unit and the customer s PC or between the development unit and a DGPS receiver This cable is terminated at both ends with fem...

Page 6: ...al of the DC power input at the rear of the unit will stop secondary power being applied assuming Jumper JB5 6 and switch 5 are correctly set Having this secondary power supply applied means that the...

Page 7: ...ACKUP POWER ON enabled 6 PREAMP power select OFF 3 V 7 PREAMP power select OFF 12 V 8 PREAMP power enable ON enabled These functions have been disabled by internal switch SW3 to allow correct operatio...

Page 8: ...the off position 3 2 6 DIP switch 6 Antenna preamp power select 3 3 V or 5 12 V Dip switch 6 provides control of the antenna preamp voltage applied to the module The switch position determines the sup...

Page 9: ...will begin flashing when the receiver is tracking a satellite 3 3 2 Power This LED indicates presence of primary DC power to the module 3 3 3 AUX This LED shows activity on the auxiliary serial RS232...

Page 10: ...rights reserved Proprietary information and specifications subject to change without notice Figure 3 6 Jupiter 30 adapter board Jupiter 30 module antenna power LED GPS fix LED J1 J2 not normally fitte...

Page 11: ...ary to open the unit Figure 3 5 illustrates the internal layout of the development unit board As shown in Figure 3 5 there is a selection of links that can be configured to provide functionality depen...

Page 12: ...nts are shown in Table 3 5 Test point Function E1 TXA E2 RXA E3 TXB E4 RXB E6 1PPS E7 not used E8 ground E9 ground Table 3 5 Signals available on the test points There are some settings that should no...

Page 13: ...6 GPIO13 18 GND 17 GND 18 1PPS 19 19 GPS_FIX GPIO10 20 Table 3 6 Connections J1 2 mm pitch header and J2 2 54 mm pitch header 4 0 Operating instructions This section provides important information for...

Page 14: ...S signals can reflect off metal or coated glass These reflections have a longer path than direct signals and can cause multi path errors 4 3 Connecting an RTCM differential source For debugging purpos...

Page 15: ...t the Settings Communications tab 3 When the Communications Settings window is displayed select the correct COM Port and set the Baud rate to 9600 Baud When this has been carried out and the developme...

Page 16: ...SiRF binary select the Action menu and click on the Switch to SiRF Protocol This should now present information in each window similar to that of VisualGPS Whilst enabled in SiRF binary protocol more...

Page 17: ...VMAN PRODUCTS INCLUDING LIABILITY OR WARRANTIES RELATING TO FITNESS FOR A PARTICULAR PURPOSE CONSEQUENTIAL OR INCIDENTAL DAMAGES MERCHANTABILITY OR INFRINGEMENT OF ANY PATENT COPYRIGHT OR OTHER INTELL...

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