RFSOLUTIONS GPS-610F

GPS RECEIVER EXT ANTENNA
GPS-610F
LowLow-Power HighHigh-Performance and LowLow-Cost
65 Channel GPS Engine Board (Flash based)
Data Sheet
Version 1.3
Abstract
Technical data sheet describing the cost effective, high-performance
GPS610F based series of ultra high sensitive GPS modules.
The GPS610F
GPS610F is a GPS module that is sensitive to
electrostatic dis(ESD). Please handle with appropriate care.
dis- charge (ESD)
The Acceptability of Electronic Assemblies of the GPS610F
has been under IPCIPC-A-610D specification
DS-GPS610F-1
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GPS RECEIVER EXT ANTENNA
GPS-610F
Version History
Rev.
Date
1.1
01-04-09
1.2
15-04-09
1.3
10-05-09
Description
Description
Initial Draft – preliminary information
Preliminary
Minor corrections
Note
Flash version supports the features ;
1.
2.
3.
4.
5.
DS-GPS610F-1
Binary code (Configuration command programmable)
Selectable NMEA output data sentences
Selectable Serial Port Settings. (4800/9600/38400/115200bps. Default : 9600)
Selectable update rate (1 / 2 / 4 / 5 / 8 / 10 Hz update rate)
Firmware upgrade
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GPS RECEIVER EXT ANTENNA
GPS-610F
1 Functional Description
1.1 Introduction
The GPS610F module is small, single-board, 65 parallel-channels receiver intended for Original
Equipment Manufacturer (OEM) products.
The receiver continuously tracks all satellites in view and provides accurate satellite positioning
data. The GPS610F is optimized for applications requiring good performance, low cost, and
maximum flexibility; suitable for a wide range of OEM configurations including handhelds,
asset tracking, marine and vehicle navigation products.
Its 65 parallel channels provide fast satellite signal acquisition and short startup time.
Acquisition sensitivity of –148 dm and tracking sensitivity of –161dBm offers good navigation
performance even in urban canyons having limited sky view.
Satellite-based augmentation systems, such as WAAS and EGNOS, are supported to yield
improved accuracy. Users can modify the NMEA sentences and Binary code
1.2 Features
65 C hannel GPS L 1 C /A C od e
Perform 8 million time-freq uency hyp othesis testing p er second
Op en sky hot start 1 sec, cold start 29 sec
Signal d etection b etter than -161d Bm
Multip ath d etection and sup p ression
Accuracy 2.5m C EP
Maximum up d ate rate 10H z
Tracking current ~23mA
Provides a 10pin header to easily connect to PCB
5m CEP Accuracy
RoHS compliance
1.3 Applications
DS-GPS610F-1
Automotive and Marine Navigation
Automotive Navigator Tracking
Emergency Locator
Geographic Surveying
Personal Positioning
Sporting and Recreation
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GPS RECEIVER EXT ANTENNA
GPS-610F
2 Characteristics
2.1 General Specification
Paramet
Parameter
Specification
65 Channels
Rec
Receiver Type
TimeTime-ToTo-First-Fix
Fix
Sensitivi
Sensitivity
Accuracy
GPS L1 frequency, C/A Code
Cold Start (Autonomous)
29s (Average, under open sky)
Warm Start (Autonomous)
5s (Average, under open sky)
Hot Start (Autonomous)
1s (Average, under open sky)
Tracking & Navigation
-161 dBm
Reacquisition
-161 dBm
Cold Start (Autonomous)
-145 dBm
Autonomous
2.5 m CEP
Velocity
0.1 m/sec (without aid)
Time
300 ns
RMS
30 ns
99%
<60 ns
Compensated
Max Update Rate
5
15 ns
Supports 1 / 2 / 4 / 5 / 8 / 10 Hz update rate (1Hz default)
Veloci
Velocity Accuracy
Accuracy
Headi
eading Accuracy
Accuracy
Dynamics
Operati
ational Limits
Velocity
0.1m/s
0.5 degrees
4 G (39.2 m/sec)
515 m/s (1000 knots)
Altitude
<18000 meters
(COCOM limit, either may be exceeded but not both)
RF connector
MMCX
Serial Interface
3.3V LVTTL level, 10 pin 2mm male header
Datum
Default WGS-84
User definable
Input Voltage User
Input Current
3.3V / 5V DC +/-10%
~36 mA tracking
Dimension
43L x 31W x 6H (mm)
Weight
Weight
10g
Table 1: GPS610F general specification
*: GPGGA, GPGSA, GPGSV, GPRMC, GPVTG are default output message
DS-GPS610F-1
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GPS RECEIVER EXT ANTENNA
GPS-610F
2.2 Serial Port Settin
Settings
The default configuration within the standard GPS firmware is the Standard configuration of
serial port:
Supporting 4800/9600 baud rate (Default Value : 9600)
9600), 8 data bits, no parity, 1 stop
bit, no flow control
2.3 Improve
Improved TTFF
In order to improve the TTFF (Time To First Fix), GPS-610F has been built with the back-up
battery (SEIKO) to support the RTC with a back-up power when no system power is available.
2.4 GPS Status Indicator
NonNon-Fixed mode : LED is always on
Fixed mode : LED toggle every second
6. Communication Specifications
Item
Description
Interface
Full duplex serial interface
Bit rate
4800/9600/38400/115200bps (Optional, Default 9600),
Start bit
1bit
Stop bit
1bit
Data bit
8bit
Parity
None
Transmission data
SACII NMEA0183 Ver:3.01
Update rate
1Hz
Output sentence
GGA/GSA/GSV/RMC/VTG (typ)
Table 2: Communication specifications
2.6 MultiMulti-path Mitigation
Mitigation
Multipath refers to the existence of signals reflected from objects in the vicinity of a receiver's
antenna that corrupt the direct line-of-sight signals from the GPS satellites, thus degrading
the accuracy of both code-based and carrier phase–based measurements. Particularly difficult
is close-in multipath in which the reflected secondary signals arrive only slightly later (within
about 100 nanoseconds) than does the direct-path signal, having been reflected from objects
only a short distance from the receiver antenna.
GPS610F deploys the advanced multi-path detection and suppression algorithm to reduce
multipath errors, the GPS signals themselves can be designed to provide inherent resistance
to multipath errors
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GPS RECEIVER EXT ANTENNA
GPS-610F
2.7 Operating Conditions
Description
Vcc
Min
2.7v
Typical
3.3v
Max
3.6v
4.5V
5V
5.5V
Enhanced-mode Acquisition
70 mA
Low power Acquisition Current
50mA
Tracking Current
23mA
Table 3: Operating Conditions
2.8 1PPS
PPS Output
put
The GPS receiver is in navigation mode upon power-up, with 1PPS output free running. After 3
minutes of valid position fix and remaining under static-mode, the receiver changes to timingmode, with 1PPS output signal synchronized to the UTC second. The receiver will change to
navigation-mode, with 1PPS output free running, if the receiver is in motion. The 1PPS output
will become synchronized to the UTC second again after the receiver had remained in static
mode for 3 minutes.
2.9 Antenna
A numbers of important properties of GNSS antennas affect functionality and performance,
including;
Frequency coverage
Gain pattern
Circular polarization
Multipath suppression
Phase Center
Impact on receiver sensitivity
Interference handling
The GPS610F module is designed to work both active and passive antenna. Active antenna
with gain in range of 10 ~ 30dB and noise figure less than 2dB can be used.
2.10 Mechanical Characteristics
Mechanical dimensions
Length
Width
Height
Weight
43 mm
31 mm
6 mm
30g (may vary)
3. Mechanical Characteristics
DS-GPS610F-1
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GPS RECEIVER EXT ANTENNA
GPS-610F
External Antenna
Pin 1
RF Connector
10 pin connector
DS-GPS610F-1
Jul 09
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GPS RECEIVER EXT ANTENNA
GPS-610F
3.2 PINOUT DESCRIPTION
GPS-610F Lateral View
Pin Number
Signal Name
1
Description
Serial Data Asynchronous serial output at LVTTL level, to output NMEA
Out 1
message
Serial Data In Asynchronous serial input at LVTTL level, to input commands
1
Pull high if not used
2
3
VCC
4
GND
5
PIO Output
6
1PPS
7
RESET IN
8
Regulated 3.3V power input (3.3V version)
Ground
PIO output, default used for GPS status indication
1 pulse per second time mark
Reset input, active LOW
Serial Data In Asynchronous serial input at LVTTL level,
2
Pull high if not used
9
VBAT
3.3V backup power input to sustain RTC and SRAM data
Must be connected for module to work.
10
Antenna Power Power input for active antenna
Table 4: Pin definition
4. Environmental
Environmental Conditions
Parameter
Specification
Operating
-20℃
20℃~+65℃
~+65℃
Temperature Storage
-55℃
55℃~+100℃
~+100℃
Humidity
5%~95%
Storage
6 months in original vacuum package.
Table 5: Environmental conditio
conditions
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GPS RECEIVER EXT ANTENNA
GPS-610F
5. NMEA protocol
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
5.1 GGAGGA-GLOBAL POSITIONING
POSITIONING SYSTEM FIX DATA
Time, position and fix related data for a GPS receiver.
Structure:
$GPGGA,hhmmss.sss,ddmm.mmmm,a,dddmm.mmmm,a,x,xx,x.x,x.x,M,x.x,M,x.x,xxxx*hh<CR><LF>
1
2
3
4
5
6 7 8 9
10
11 12 13
Example:
$GPGGA,060932.448,2447.0959,N,12100.5204,E,1,08,1.1,108.7,M,,,,0000*0E<CR><LF>
Field Name
Example
1
UTC Time
060932.448
2
Latitude
2447.0959
Description
UTC of position in hhmmss.sss format, (000000.00 ~
235959.99)
Latitude in ddmm.mmmm format
Leading zeros transmitted
3
N/S Indicator N
4
Longitude
Latitude hemisphere indicator, ‘N’ = North, ‘S’ = South
Longitude in dddmm.mmmm format
12100.5204
Leading zeros transmitted
5
E/W Indicator E
Longitude hemisphere indicator, 'E' = East, 'W' = West
GPS quality indicator
0: position fix unavailable
1: valid position fix, SPS mode
GPS quality
6
indicator
2: valid position fix, differential GPS mode
1
3: GPS PPS Mode, fix valid
4: Real Time Kinematic. System used in RTK mode with fixed
integers
5: Float RTK. Satellite system used in RTK mode. Floating
integers
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GPS RECEIVER EXT ANTENNA
GPS-610F
6: Estimated (dead reckoning) Mode
7: Manual Input Mode
8: Simulator Mode
7
Satellites
Used
08
Number of satellites in use, (00 ~ 12)
8
HDOP
1.1
Horizontal dilution of precision, (00.0 ~ 99.9)
9
Altitude
108.7
mean sea level (geoid), (-9999.9 ~ 17999.9)
10
Geoid
Geoid separation in meters according to WGS-84 ellipsoid (-
Separation
999.9 ~ 9999.9)
Age of DGPS data since last valid RTCM transmission in xxx
format (seconds)
11 DGPS Age
NULL when DGPS not used
12
DGPS Station
ID
13 Checksum
Differential reference station ID, 0000 ~ 1023
0000
NULL when DGPS not used
0E
Note: The checksum field starts with a ‘*’ and consists of 2 characters representing a hex
number. The checksum is the exclusive OR of all characters between ‘$’ and ‘*’.
DS-GPS610F-1
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GPS RECEIVER EXT ANTENNA
GPS-610F
5.2 GLL - LATITUDE AND LONGITUDE, WITH TIME OF POSITION FIX AND STATUS
Latitude and longitude of current position, time, and status.
Structure:
$GPGLL,ddmm.mmmm,a,dddmm.mmmm,a,hhmmss.sss,A,a*hh<CR><LF>
1
2
3
4
5
6
7
8
Example:
$GPGLL,4250.5589,S,14718.5084,E,092204.999,A,A*2D<CR><LF>
Field Name
Example
Description
Latitude in ddmm.mmmm format
1
Latitude
4250.5589
Leading zeros transmitted
Latitude hemisphere indicator
2
N/S Indicator
S
‘N’ = North
‘S’ = South
Longitude in dddmm.mmmm format
3
Longitude
14718.5084
Leading zeros transmitted
Longitude hemisphere indicator
4
E/W Indicator
E
'E' = East
'W' = West
5
UTC Time
092204.999
6
Status
A
UTC time in hhmmss.sss format (000000.00 ~
235959.99)
Status, ‘A’ = Data valid, ‘V’ = Data not valid
Mode indicator
‘N’ = Data not valid
‘A’ = Autonomous mode
7
Mode Indicator
A
‘D’ = Differential mode
‘E’ = Estimated (dead reckoning) mode
‘M’ = Manual input mode
‘S’ = Simulator mode
8
DS-GPS610F-1
Jul 09
Checksum
2D
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GPS RECEIVER EXT ANTENNA
GPS-610F
5.3 GSA - GPS DOP AND ACTIVE SATELLITES
GPS receiver operating mode, satellites used in the navigation solution reported by the GGA or
GNS sentence and DOP values.
Structure:
$GPGSA,A,x,xx,xx,xx,xx,xx,xx,xx,xx,xx,xx,xx,xx,x.x,x.x,x.x*hh<CR><LF>
123 3 3 3 3 3 3 3 3 3 3 3 4 5 6
7
Example:
$GPGSA,A,3,01,20,19,13,,,,,,,,,40.4,24.4,32.2*0A<CR><LF>
Field Name
Example
Description
Description
Mode
1
Mode
A
‘M’ = Manual, forced to operate in 2D or 3D mode
‘A’ = Automatic, allowed to automatically switch
2D/3D
Fix type
1 = Fix not available
2
Mode
3
2 = 2D
3 = 3D
3
DS-GPS610F-1
Satellite
used 01,20,19,13, Satellite ID number, 01 to 32, of satellite used in
1~12
,,,,,,,,
solution, up to 12 transmitted
4
PDOP
40.4
Position dilution of precision (00.0 to 99.9)
5
HDOP
24.4
Horizontal dilution of precision (00.0 to 99.9)
6
VDOP
32.2
Vertical dilution of precision (00.0 to 99.9)
7
Checksum
0A
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GPS RECEIVER EXT ANTENNA
GPS-610F
5.4 GSV - GPS SATELLITE IN VIEW
Numbers of satellites in view, PRN number, elevation angle, azimuth angle, and C/No. Four
satellites details are transmitted per message. Additional satellite in view information is send
in subsequent GSV messages.
Structure:
$GPGSV,x,x,xx,xx,xx,xxx,xx,…,xx,xx,xxx,xx *hh<CR><LF>
123 4 5 6 7
4 5 6 7 8
Example:
$GPGSV,3,1,09,28,81,225,41,24,66,323,44,20,48,066,43,17,45,336,41*78<CR><LF>
$GPGSV,3,2,09,07,36,321,45,04,36,257,39,11,20,050,41,08,18,208,43*77<CR><LF>
Field NaME
1
Number of
message
Example
Description
3
Total number of GSV messages to be transmitted (1-3)
2
Sequence number 1
Sequence number of current GSV message
3
Satellites in view
09
Total number of satellites in view (00 ~ 12)
4
Satellite ID
28
5
Elevation
81
Satellite elevation in degrees, (00 ~ 90)
6
Azimuth
225
Satellite azimuth angle in degrees, (000 ~ 359 )
7
SNR
41
Satellite ID number, GPS: 01 ~ 32, SBAS: 33 ~ 64 (33
= PRN120)
C/No in dB (00 ~ 99)
Null when not tracking
8
DS-GPS610F-1
Jul 09
Checksum
78
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GPS RECEIVER EXT ANTENNA
GPS-610F
5.5 RMC - RECOMMANDED MINIMUM SPECIFIC GPS/TRANSIT DATA
Time, date, position, course and speed data provided by a GNSS navigation receiver.
Structure:
$GPRMC,hhmmss.sss,A,dddmm.mmmm,a,dddmm.mmmm,a,x.x,x.x,ddmmyy,x.x
,a,a*hh<CR><LF>
1
2
3
4
5
6 7
8
9 10 11 12
13
Example:
$GPRMC,092204.999,A,4250.5589,S,14718.5084,E,0.00,89.68,211200,,A*25<CR><LF>
Field NaME
1
2
3
4
5
6
7
8
9
10
11
12
13
DS-GPS610F-1
Jul 09
Example
Description
UTC time in hhmmss.sss format (000000.00 ~
UTC time
092204.999
235959.999)
Status
Status
A
‘V’ = Navigation receiver warning
‘A’ = Data Valid
Latitude in dddmm.mmmm format
Latitude
4250.5589
Leading zeros transmitted
Latitude hemisphere indicator
N/S indicator
S
‘N’ = North
‘S’ = South
Longitude in dddmm.mmmm format
Longitude
14718.5084
Leading zeros transmitted
Longitude hemisphere indicator
E/W Indicator
E
'E' = East
'W' = West
Speed over ground 000.0
Speed over ground in knots (000.0 ~ 999.9)
Course
over
000.0
Course over ground in degrees (000.0 ~ 359.9)
ground
UTC Date
211200
UTC date of position fix, ddmmyy format
Magnetic variation
Magnetic variation in degrees (000.0 ~ 180.0)
Magnetic variation direction
Magnetic Variation
‘E’ = East
‘W’ = West
Mode indicator
‘N’ = Data not valid
‘A’ = Autonomous mode
Mode indicator
A
‘D’ = Differential mode
‘E’ = Estimated (dead reckoning) mode
‘M’ = Manual input mode
‘S’ = Simulator mode
checksum
25
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GPS RECEIVER EXT ANTENNA
GPS-610F
5.6 VTG - COURSE OVER GROUND AND GROUND SPEED
The Actual course and speed relative to the ground.
Structure:
GPVTG,x.x,T,x.x,M,x.x,N,x.x,K,a*hh<CR><LF>
1
2
3
4
5 6
Example:
$GPVTG,89.68,T,,M,0.00,N,0.0,K,A*5F<CR><LF>
Field Name
1
Course
Example
89.68
2
Course
3
Speed
0.00
4
Speed
0.00
5
Mode
A
6
Checksum
5F
Description
True course over ground in degrees (000.0 ~ 359.9)
Magnetic course over ground in degrees (000.0 ~
359.9)
Speed over ground in knots (000.0 ~ 999.9)
Speed over ground in kilometers per hour (0000.0 ~
1800.0)
Mode indicator
‘N’ = not valid
‘A’ = Autonomous mode
‘D’ = Differential mode
‘E’ = Estimated (dead reckoning) mode
‘M’ = Manual input mode
‘S’ = Simulator mode
5.7 ZDAZDA- TIME AND DATE
Structure:
$GPRMC,hhmmss.sss,dd,mm.yyyy, , ,xxx<CR><LF>
1
2 3 4 5
6
7
Example:
$GPZDA,104548.04,25,03,2004,,*6C<CR><LF>
Field
Name
Example
1
UTC time
2
UTC time: day 25
UTC
time:
03
month
UTC time: year 2004
3
4
104548.04
5
6
7
DS-GPS610F-1
Jul 09
6C
6C
Description
UTC time in hhmmss.ss format, 000000.00 ~
235959.99
UTC time day (01 ... 31)
UTC time: month (01 ... 12)
UTC time: year (4 digit year)
Local zone hour
Not being output by the receiver (NULL)
Local zone minutes
Not being output by the receiver (NULL)
Checksum
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GPS RECEIVER EXT ANTENNA
GPS-610F
6. Contact
Contact Information
We hope this datasheet will be helpful to the user to get the most out of the GPS
module, furthermore feedback inputs about errors or mistakable verbalizations and
comments or proposals to RF Solutions Ltd.
Ltd.. for further improvements are highly
appreciated.
© 2009 RF Solutions Ltd.
Ltd. All right
rights reser
reserved.
Not to be reproduced in whole or part for any purpose without written permission of RF
Solutions Ltd.
Ltd Information provided by RF Solutions Ltd is believed to be accurate and reliable.
These materials are provided by RF Solutions Ltd as a service to its customers and may be
used for informational purposes only. RF Solutions Ltd assumes no responsibility for errors or
omissions in these materials, nor for its use RF Solutions Ltd reserves the right to change
specification at any time without notice.
These materials are provides “as is” without warranty of any kind, either expressed or implied,
relating to sale and/or use of RF Solutions Ltd 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 intellectual property right.
RF Solutions Ltd further does not warrant the accuracy or completeness of the information,
text, graphics or other items contained within these materials. RF Solutions Ltd shall not be
liable for any special, indirect, incidental, or consequential damages, including without
limitation, lost revenues or lost profits, which may result from the use of these materials.
RF Solutions Ltd products are not intended for use in medical, life-support devices, or
applications involving potential risk of death, personal injury, or severe property damage in
case of failure of the product.
DS-GPS610F-1
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