Navman 11 User Manual

42

MN002000A © 2004 Navman NZ Ltd. All rights reserved. Proprietary information and specifications subject to change without notice.

Message ID: 1310
Rate: as required (maximum rate 1 Hz)
Message length: 20 words

Word No.

Name

Type

Units

Range

Resolution

1-4

Message header

5

Header checksum

6

Sequence number (Note 1)

I

0 to 32 767

7

Frequency standard issue number (Note 2)

UI

0 to 65 535

Temperature characteristic

8

C0 (ageing and calibration offset) (Note 3)

I

s/s

0 to ±2

-14

2

-29

9

C1 (linear term) (Note 3)

I

s/s/ºC

0 to ±2

-20

2

-35

10

C2 (second order term) (Note 3)

I

s/s/(ºC)

2

0 to ±2

-26

2

-41

11

C3 (third order term) (Note 3)

I

s/s/ºC)

3

0 to ±2

-32

2

-47

12

TINF (inflection point) (Note 3)

I

ºC

0 to ±100

0.01

Temperature dynamics

13

D0 (Note 4)

I

14

D1 (Note 4)

I

Temperature sensor calibration

15

TREF(calibration reference temperature)

(Note 5)

I

ºC

0 to ±100

0.01

16

T0 (temperature sensor reading at TREF)

(Note 5)

UI

counts

0 to 65 535

1

17

S0 (temperature sensor scale factor) (Note 5)

I

ºC/count

0 to ±23

2

-18

Uncertainty coefficients

18

U0 (Note 6)

I

s/s

0 to ±2

-14

2

-29

19

U1 (Note 6)

I

s/s/ºC

0 to ±2

-20

2

-35

20

Data checksum

Note 1: The sequence number is a count that indicates whether the data in a particular binary message has been updated or

changed since the last message input.

Note 2: Unique identification of each update. This allows a different set of data to be in use while newer data are only stored to

EEPROM. The issue number is preserved from run to run if non-volatile storage is available.

Note 3: Defines a cubic in (T – TINF). Over a range of TINF+65 degrees C, each term can produce from 0.002 to 60 ppm,

approximately.

Note 4: *** TBD ***. These parameters will be used to compensate temperature dynamics transients.

Note 5: These parameters define the temperature sensor scaling according to the equation:

T = TREF+ (TFILT- T0) S0

Note 6: Defines a linear equation in (T – TINF)’ Over a range of TINF +65°C, each term can produce from 0.002 to 60 ppm,

approximately.

Table 3-36 Message 1310 (frequency standard input parameters)

3.5.2.14 Message 1310 (frequency standard input

parameters).

This message defines the temperature polynomial,

coefficients, and scale factors used by the

receiver’s frequency standard compensation

model. The contents of the ‘frequency standard

input parameters’ message are described in Table

3-36.

Note: Message 1310 is primarily used to input key

parameters from GPS systems without non-volatile

storage. This is why the format of output Message

1110 is exactly the same. In other words, the

output message is used to capture data while the

input message is used to restore data.