Navman Jupiter 110, Manual

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LA000504D © 2006 Navman New Zealand. All rights reserved. Proprietary information and specifications subject to change without notice.
If the ephemeris data become invalid, the RTC has the ability to self activate and refresh the
data, thus keeping the restart TTFF very short.
For further information about TricklePower refer to the Low Power Operating Modes
application note (LA000513).
3.5 Differential aiding WAAS/EGNOS
The Jupiter 110 is capable of receiving WAAS and EGNOS differential corrections. WAAS/
EGNOS improves horizontal position accuracy to <6 m 2 dRMS by correcting GPS signal errors
caused by ionospheric disturbances, timing and satellite orbit errors.
3.6 Navigation modes
The Jupiter 110 supports 3D (three-dimensional) and 2D (two-dimensional) modes of navigation.
3D navigation:
the receiver defaults to 3D navigation when at least four GPS satellites are
being tracked. In 3D navigation, the receiver computes latitude, longitude, altitude, and time
information from satellite measurements.
2D navigation:
when less than four GPS satellite signals are available, or when a fixed altitude
value can be used to produce an acceptable navigation solution, the receiver will enter 2D
navigation using a fixed value of altitude determined by the host. Forced operation in 2D mode
can be commanded by the host.
In 2D navigation, the navigational accuracy is primarily determined by the relationship of the
fixed altitude value to the true altitude of the antenna. If the fixed value is correct, the specified
horizontal accuracies apply. Otherwise, the horizontal accuracies will degrade as a function of
the error in the fixed altitude.
3.7 Core processor performance
The standard Jupiter 110 with GSW2 software runs at a CPU clock speed of 12.28 MHz. Using
XTrac software (Jupiter 110S and 110RS), the clock speed increases to 24.5 MHz. An SDK
(Software Development Kit) is available from SiRF to customise the Jupiter 110 firmware. Using
the SiRF SDK the clock speed can be increased up to 49 MHz.
The processor performance of the Jupiter 110 is shown in Table 3-2.
Parameter J110/J110R J110S/J110RS
typical performance 2-3 MIPS 4-5 MIPS
peak performance 6-7 MIPS 8-9 MIPS
Table 3-2: Jupiter 110 processor performance
3.8 Dynamic constraints
The Jupiter 110 is programmed to lose track if any of the following limits is exceeded:
Velocity: 500 m/s max
Acceleration: 4 G (39.2 m/s/s) max
Altitude: 18 000 m
3.9 Position and velocity accuracy
Position and velocity accuracy of the Jupiter 110 are shown in Table 3-3, assuming full accuracy
C/A code. These values are the same in normal operation and when TricklePower is active.
Parameter J110/J110R J110S/J110RS
horizontal CEP 2.2 m 3.0 m
horizontal (2 dRMS) 5.5 m 6.0 m
vertical VEP 2.5 m 5.0 m
3D SEP 5.0 m 5.0 m
velocity 3D (2 sigma) 0.1 m/s 0.1 m/s
Table 3-3: Position and velocity accuracy
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