ATMEL ATR0622-EK1

Features
• 16 Channel GPS Correlator
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– 8192 Search Bins with GPS Acquisition Accelerator
– Accuracy: 2.5m CEP (Stand-Alone, S/A off)
– Time to First Fix: 34s (Cold Start)
– Acquisition Sensitivity: –140 dBm
– Tracking Sensitivity: –150 dBm
Utilizes the ARM7TDMI® ARM® Thumb® Processor Core
– High-performance 32-bit RISC Architecture
– High-density 16-bit Instruction Set
– EmbeddedICE™ (In-circuit Emulator)
128 Kbyte Internal RAM
384 Kbyte Internal ROM, Firmware Version V5.0
Position Technology Provided by u-blox
Fully Programmable External Bus Interface (EBI)
– Maximum External Address Space of 8 Mbytes
– Up to 4 Chip Selects
– Software Programmable 8-bit/16-bit External Data Bus
6-channel Peripheral Data Controller (PDC)
8-level Priority, Individually Maskable, Vectored Interrupt Controller
– 2 External Interrupts
32 User-programmable I/O Lines
1 USB Device Port
– Universal Serial Bus (USB) V2.0 Full-speed Device
– Embedded USB V2.0 Full-speed Transceiver
– Suspend/Resume Logic
– Ping-pong Mode for Isochronous and Bulk Endpoints
2 USARTs
– 2 Dedicated Peripheral Data Controller (PDC) Channels per USART
Master/Slave SPI Interface
– 2 Dedicated Peripheral Data Controller (PDC) Channels
– 8-bit to 16-bit Programmable Data Length
– 4 External Slave Chip Selects
Programmable Watchdog Timer
Advanced Power Management Controller (APMC)
– Peripherals Can Be Deactivated Individually
– Geared Master Clock to Reduce Power Consumption
– Sleep State with Disabled Master Clock
– Hibernate State with 32.768 kHz Master Clock
Real Time Clock (RTC)
2.3V to 3.6V or 1.8V Core Supply Voltage
Includes Power Supervisor
1.8V to 3.3V User-definable I/O Voltage for Several GPIOs with 5V Tolerance
4 Kbytes Battery Backup Memory
9 mm × 9 mm 100-pin BGA Package (LFBGA100)
RoHS-compliant
GPS Baseband
Processor
ATR0621P1
Automotive
Summary
NOTE: This is a summary document.
The complete document is available.
For more information, please contact
your local Atmel sales office.
4975BS–GPS–05/08
1. Description
The GPS baseband processor ATR0621P1 includes a 16-channel GPS correlator and is based
on the ARM7TDMI processor core.
This processor has a high-performance 32-bit RISC architecture and very low power consumption. In addition, a large number of internally banked registers result in very fast exception
handling, making the device ideal for real-time control applications. The ATR0621P1 has two
USART and an USB device port. This port is compliant with the Universal Serial Bus (USB) V2.0
full-speed device specification. The ATR0621P1 has a direct connection to off-chip memory,
including Flash, through the External Bus Interface (EBI).
The ATR0621P1 includes full GPS firmware, licensed from u-blox AG, which performs the basic
GPS operation, including tracking, acquisition, navigation and position data output. For normal
PVT (Position/Velocity/Time) applications, there is no need for off-chip Flash memory or ROM.
The firmware supports e.g. the NMEA® protocol (2.1 and 2.3), a binary protocol for PVT data,
configuration and debugging, the RTCM protocol for DGPS, SBAS (WAAS, EGNOS and MSAS)
and A-GPS (aiding). It is also possible to store the configuration settings in an optional external
EEPROM.
The ATR0621P1 is manufactured using the Atmel® high-density CMOS technology. By combining the ARM7TDMI microcontroller core with on-chip SRAM, 16-channel GPS correlator and a
wide range of peripheral functions on a monolithic chip, the ATR0621P1 provides a highly-flexible and cost-effective solution for GPS applications.
2
ATR0621P1
4975BS–GPS–05/08
ATR0621P1
Advanced
Power
Management
Controller
XT_IN
XT_OUT
GPS
Correlators
RTC
NSHDN
NSLEEP
GPS
Accelerator
Block Diagram
SRAM
RF_ON
CLK23
SMD
Generator
P15/ANTON
P0/NANTSHORT
P14/NAADET1
P25/NAADET0
SIGLO0
SIGHI0
Timer
Counter
Figure 1-1.
SPI
APB
PIO2
Special
Function
USART2
P31/RXD1
USB
Transceiver
USB
PDC2
SRAM
128K
ROM
384K
ASB
Power
Supply
Manager
Reset
Controller
JTAG
NTRST
NRESET
USB_DP
USB_DM
B
R
I
D
G
E
DBG_EN
TDI
TDO
TCK
TMS
ARM7TDMI
Embedded
ICE
EM_DA15
EM_DA0
Interface to
Off-Chip
Memory
(EBI)
EM_A19
EM_A1
Watchdog
P8/STATUSLED
P16/NEEPROM
P11/EM_A21
P28/EM_A20
P10/EM_A0/NLB
P7/NUB/NWR1
P6/NOE/NRD
P5/NWE/NWR0
P4/nCS0
P3/nCS1
P22/RXD2
P18/TXD1
USART1
P30/AGCOUT0
Advanced
Interrupt
Controller
P2/BOOT_MODE
P21/TXD2
PIO2
P9/EXTINT0
PIO2
Controller
P20/TIMEPULSE
P29/GPSMODE12
P27/GPSMODE11
P26/GPSMODE10
P24/GPSMODE8
P23/GPSMODE7
P19/GPSMODE6
P17/GPSMODE5
P13/GPSMODE3
P12/GPSMODE2
P1/GPSMODE0
VBAT18
VBAT
LDOBAT_IN
LDO_OUT
LDO_IN
LDO_EN
3
4975BS–GPS–05/08
2. Architectural Overview
2.1
Description
The ATR0621P1 architecture consists of two main buses, the Advanced System Bus (ASB) and
the Advanced Peripheral Bus (APB). The ASB is designed for maximum performance. It interfaces the processor with the on-chip 32-bit memories and the external memories and devices by
means of the External Bus Interface (EBI). The APB is designed for accesses to on-chip peripherals and is optimized for low power consumption. The AMBA™ Bridge provides an interface
between the ASB and the APB.
An on-chip Peripheral Data Controller (PDC2) transfers data between the on-chip USARTs/SPI
and the on-chip and off-chip memories without processor intervention. Most importantly, the
PDC2 removes the processor interrupt handling overhead and significantly reduces the number
of clock cycles required for a data transfer. It can transfer up to 64K contiguous bytes without
reprogramming the starting address. As a result, the performance of the microcontroller is
increased and the power consumption reduced.
The ATR0621P1 peripherals are designed to be easily programmable with a minimum number
of instructions. Each peripheral has a 16 Kbyte address space allocated in the upper 3 Mbyte of
the 4 Gbyte address space. (Except for the interrupt controller, which has 4 Kbyte address
space.) The peripheral base address is the lowest address of its memory space. The peripheral
register set is composed of control, mode, data, status, and interrupt registers.
To maximize the efficiency of bit manipulation, frequently written registers are mapped into three
memory locations. The first address is used to set the individual register bits, the second resets
the bits, and the third address reads the value stored in the register. A bit can be set or reset by
writing a “1” to the corresponding position at the appropriate address. Writing a “0” has no effect.
Individual bits can thus be modified without having to use costly read-modify-write and complex
bit-manipulation instructions.
All of the external signals of the on-chip peripherals are under the control of the Parallel I/O
(PIO2) Controller. The PIO2 Controller can be programmed to insert an input filter on each pin or
generate an interrupt on a signal change. After reset, the user must carefully program the PIO2
Controller in order to define which peripheral signals are connected with off-chip logic.
The ARM7TDMI processor operates in little-endian mode on the ATR0621P1 GPS Baseband.
The processor's internal architecture and the ARM and Thumb instruction sets are described in
the ARM7TDMI datasheet.
The ARM standard In-Circuit Emulation debug interface is supported via the JTAG/ICE port of
the ATR0621P1.
Features of the ROM firmware are described in software documentation available from u-blox
AG, Switzerland.
4
ATR0621P1
4975BS–GPS–05/08
ATR0621P1
3. Pin Configuration
3.1
Pinout
Figure 3-1.
Pinout LFBGA100 (Top View)
A B CDE F GH J K
10
9
8
7
6
5
4
3
2
1
Table 3-1.
ATR0621P1 Pinout
Pin Name
LFBGA100
Pin Type
CLK23
G9
IN
DBG_EN
H4
IN
EM_A1
A6
OUT
EM_A2
A5
OUT
EM_A3
A4
OUT
EM_A4
A2
OUT
EM_A5
A3
OUT
EM_A6
B5
OUT
EM_A7
B4
OUT
EM_A8
B2
OUT
EM_A9
D4
OUT
EM_A10
C2
OUT
EM_A11
D6
OUT
EM_A12
D7
OUT
EM_A13
C3
OUT
EM_A14
C1
OUT
EM_A15
D5
OUT
Notes:
ATR0621P1
Pull Resistor
(Reset Value)(1)
Firmware Label
PIO Bank A
PIO Bank B
PD
1. PD = internal pull-down resistor, PU = internal pull-up resistor, OH = switched to Output High at reset
2. VBAT18 represent the internal power supply of the backup power domain
3. VDDIO is the supply voltage for the following GPIO pins: P1, P2, P8, P12, P14, P16, P17, P18, P19, P20, P21, P23, P24,
P25, P26, P27 and P29
4. VDD_USB is the supply voltage for the following USB pins: USB_DM and USB_DP. For operation of the USB interface, supply of 3.0V to 3.6V is required.
5. This pin is not connected
5
4975BS–GPS–05/08
Table 3-1.
ATR0621P1 Pinout (Continued)
Pin Name
LFBGA100
Pin Type
EM_A16
C6
OUT
EM_A17
F8
OUT
EM_A18
B3
OUT
EM_A19
C5
OUT
Pull Resistor
(Reset Value)(1)
EM_DA0
B6
I/O
PD
EM_DA1
B10
I/O
PD
EM_DA2
C7
I/O
PD
EM_DA3
C10
I/O
PD
EM_DA4
D10
I/O
PD
EM_DA5
E7
I/O
PD
EM_DA6
E9
I/O
PD
EM_DA7
B7
I/O
PD
EM_DA8
B8
I/O
PD
EM_DA9
A9
I/O
PD
EM_DA10
C8
I/O
PD
EM_DA11
B9
I/O
PD
EM_DA12
D8
I/O
PD
EM_DA13
C9
I/O
PD
EM_DA14
D9
I/O
PD
EM_DA15
E8
I/O
PD
GND
A1
IN
GND
A10
IN
GND
K1
IN
GND
K10
IN
LDOBAT_IN
K8
IN
LDO_EN
H7
IN
LDO_IN
K7
IN
LDO_OUT
H6
OUT
NRESET
C4
I/O
Firmware Label
NSHDN
G7
OUT
J6
OUT
NTRST
K2
IN
PD
P0
K9
I/O
PD
NANTSHORT
G3
I/O
Configurable (PD)
GPSMODE0
P1
PIO Bank B
Open Drain PU
NSLEEP
Notes:
PIO Bank A
AGCOUT1
1. PD = internal pull-down resistor, PU = internal pull-up resistor, OH = switched to Output High at reset
2. VBAT18 represent the internal power supply of the backup power domain
3. VDDIO is the supply voltage for the following GPIO pins: P1, P2, P8, P12, P14, P16, P17, P18, P19, P20, P21, P23, P24,
P25, P26, P27 and P29
4. VDD_USB is the supply voltage for the following USB pins: USB_DM and USB_DP. For operation of the USB interface, supply of 3.0V to 3.6V is required.
5. This pin is not connected
6
ATR0621P1
4975BS–GPS–05/08
ATR0621P1
Table 3-1.
ATR0621P1 Pinout (Continued)
Pin Name
LFBGA100
Pin Type
Pull Resistor
(Reset Value)(1)
Firmware Label
P2
G4
I/O
Configurable (PD)
BOOT_MODE
“0”
P3
H5
I/O
OH
NCS1
NCS1
“0”
P4
A7
I/O
OH
NCS0
NCS0
“0”
P5
B1
I/O
OH
NWE/NWR0
NWE/NWR0
“0”
PIO Bank A
PIO Bank B
P6
A8
I/O
OH
NOE/NRD
NOE/NRD
“0”
P7
D2
I/O
OH
NUB/NWR1
NUB/NWR1
“0”
P8
G2
I/O
Configurable (PD)
STATUSLED
“0”
P9
J8
I/O
PU to VBAT18
EXTINT0
EXTINT0
P10
E4
I/O
OH
EM_A0/NLB
EM_A0/NLB
“0”
P11
H10
I/O
OH
EM_A21
NCS2
EM_A21
P12
F3
I/O
Configurable (PU)
GPSMODE2
NPCS2
P13
G10
I/O
PU to VBAT18
GPSMODE3
EXTINT1
P14
J5
I/O
Configurable (PD)
NAADET1
P15
K5
I/O
PD
ANTON
“0”
P16
E1
I/O
Configurable (PU)
NEEPROM
SIGHI1
P17
J4
I/O
Configurable (PD)
GPSMODE5
SCK1
P18
K4
I/O
Configurable (PU)
TXD1
P19
F1
I/O
Configurable (PU)
GPSMODE6
SIGLO1
P20
H2
I/O
Configurable (PD)
TIMEPULSE
SCK2
P21
F2
I/O
Configurable (PU)
TXD2
P22
H8
I/O
PU to VBAT18
RXD2
P23
H3
I/O
Configurable (PU)
GPSMODE7
P24
H1
I/O
Configurable (PU)
GPSMODE8
P25
D1
I/O
Configurable (PD)
NAADET0
P26
G8
I/O
Configurable (PU)
GPSMODE10
NWD_OVF
SCK1
TXD1
“0”
SCK2
TIMEPULSE
TXD2
“0”
SCK
SCK
MCLK_OUT
MOSI
MOSI
“0”
MISO
MISO
“0”
NSS
NPCS0
“0”
RXD2
P27
E2
I/O
Configurable (PU)
GPSMODE11
NPCS1
P28
G1
I/O
OH
EM_A20
NCS3
P29
E3
I/O
Configurable (PU)
GPSMODE12
NPCS3
P30
G5
I/O
PD
AGCOUT0
AGCOUT0
RXD1
P31
H9
I/O
PU to VBAT18
RF_ON
K6
OUT
PD
SIGHI0
F9
IN
SIGLO0
E10
IN
TCK
J3
IN
Notes:
“0”
EM_A20
“0”
RXD1
PU
1. PD = internal pull-down resistor, PU = internal pull-up resistor, OH = switched to Output High at reset
2. VBAT18 represent the internal power supply of the backup power domain
3. VDDIO is the supply voltage for the following GPIO pins: P1, P2, P8, P12, P14, P16, P17, P18, P19, P20, P21, P23, P24,
P25, P26, P27 and P29
4. VDD_USB is the supply voltage for the following USB pins: USB_DM and USB_DP. For operation of the USB interface, supply of 3.0V to 3.6V is required.
5. This pin is not connected
7
4975BS–GPS–05/08
Table 3-1.
Pin Name
ATR0621P1 Pinout (Continued)
LFBGA100
Pin Type
Pull Resistor
(Reset Value)(1)
PU
TDI
J2
IN
TDO
K3
OUT
TMS
J1
IN
USB_DM
F10
I/O
USB_DP
D3
I/O
VBAT
J7
IN
G6
OUT
VDD18
E6
IN
VDD18
F7
IN
VDD18
F6
IN
E5
IN
F5
IN
VBAT18
(2)
(3)
VDDIO
VDD_USB
(4)
XT_IN
J9
IN
XT_OUT
J10
OUT
NC(5)
F4
-
Notes:
Firmware Label
PIO Bank A
PIO Bank B
PU
1. PD = internal pull-down resistor, PU = internal pull-up resistor, OH = switched to Output High at reset
2. VBAT18 represent the internal power supply of the backup power domain
3. VDDIO is the supply voltage for the following GPIO pins: P1, P2, P8, P12, P14, P16, P17, P18, P19, P20, P21, P23, P24,
P25, P26, P27 and P29
4. VDD_USB is the supply voltage for the following USB pins: USB_DM and USB_DP. For operation of the USB interface, supply of 3.0V to 3.6V is required.
5. This pin is not connected
8
ATR0621P1
4975BS–GPS–05/08
ATR0621P1
3.2
Signal Description
Table 3-2.
ATR0621P1 Signal Description
Module
Name
EM_A0 to EM_A21
Function
External memory address bus
EM_DA0 to EM_DA15 External memory data bus
EBI
USB
Internal pull-down resistor
I/O
–
Low
Output high in RESET state
NCS2 to NCS3
Chip select
Output
Low
Output high in RESET state
NWR0
Lower byte write signal
Output
Low
Output high in RESET state
NWR1
Upper byte write signal
Output
Low
Output high in RESET state
NRD
Read signal
Output
Low
Output high in RESET state
NWE
Write enable
Output
Low
Output high in RESET state
NOE
Output enable
Output
Low
Output high in RESET state
NUB
Upper byte select (16-bit SRAM)
Output
Low
Output high in RESET state
NLB
Lower byte select (16-bit SRAM)
Output
Low
Output high in RESET state
Input
–
PIO-controlled after reset,
internal pull-down resistor
Output
–
PIO-controlled after reset
Input
–
PIO-controlled after reset
I/O
–
PIO-controlled after reset
Boot mode input
TXD1-2
Transmit data output
RXD1-2
Receive data input
SCK1-2
External synchronous serial clock
USB_DP
USB data (D+)
I/O
–
USB_DM
USB data (D-)
I/O
–
Output
–
Input
High/
Low/
Edge
PIO-controlled after reset
Automatic gain control
Output
–
Interface to ATR0601
PIO-controlled after reset
NSLEEP
Sleep output
Output
Low
Interface to ATR0601
NSHDN
Shutdown output
Output
Low
Connect to pin LDO_EN
Input
–
RTC oscillator
Output
–
RTC oscillator
AIC
EXTINT0-1
AGC
AGCOUT0-1
XT_IN
XT_OUT
External interrupt request
Oscillator input
Oscillator output
Interface to ATR0601
SCK
SPI clock
I/O
–
PIO-controlled after reset
MOSI
Master out slave in
I/O
–
PIO-controlled after reset
MISO
Master in slave out
I/O
–
PIO-controlled after reset
NSS/NPCS0
Slave select
I/O
Low
PIO-controlled after reset
NPCS1-3
Slave select
Output
Low
PIO-controlled after reset
Watchdog timer overflow
Output
–
PIO-controlled after reset
I/O
–
Input after reset
(except P3 to P7, P10, P11, P28)
WD
NWD_OVF
PIO
P0-31
Note:
All valid after reset
Output
RF_ON
SPI
–
Chip select
APMC
RTC
Output
Active Level Comment
NCS0 to NCS1
BOOT_MODE
USART
Type
Programmable I/O port
1. The USB transceiver is disabled if VDD_USB < 2.0V. In this case the pins USB_DM and USB_DP are connected to GND
(internal pull-down resistors). The USB transceiver is enabled if VDD_USB is within 3.0V and 3.6V.
9
4975BS–GPS–05/08
Table 3-2.
Module
GPS
ATR0621P1 Signal Description (Continued)
Name
Function
Type
SIGHI0
Digital IF
Input
–
Interface to ATR0601
SIGLO0
Digital IF
Input
–
Interface to ATR0601
SIGHI1
Digital IF
Input
–
PIO-controlled after reset
SIGLO1
Digital IF
Input
–
PIO-controlled after reset
Output
–
PIO-controlled after reset
TIMEPULSE
GPSMODE0-12
GPS mode
Input
–
PIO-controlled after reset
STATUSLED
Status LED
Output
–
PIO-controlled after reset
Input
Low
PIO-controlled after reset
Output
–
PIO-controlled after reset
Active antenna short circuit
detection Input
Input
Low
PIO-controlled after reset
Active antenna detection input
Input
Low
PIO-controlled after reset
TMS
Test mode select
Input
–
Internal pull-up resistor
NEEPROM
CONFIG
ANTON
NANTSHORT
NAADET0-1
JTAG/ICE
Test data in
Test data out
Input
–
Internal pull-up resistor
Output
–
Output high in RESET state
TCK
Test clock
Input
–
Internal pull-up resistor
NTRST
Test reset input
Input
Low
DBG_EN
Debug enable
Input
High
LDOBAT
–
Output
–
PIO-controlled after reset
I/O
Low
VDD18
Power
–
Core voltage 1.8V
VDDIO
Power
–
Variable I/O voltage 1.65V to 3.6V
VDD_USB
Power
–
USB voltage 0 to 2.0V or
3.0Vto 3.6V(1)
GND
Power
–
Ground
LDOBAT_IN
Power
–
2.3V to 3.6V
VBAT
Power
–
1.5V to 3.6V
LDO_IN
LDO_OUT
LDO_EN
Note:
10
Internal pull-down resistor
Input
Clock input
Master clock output
Reset input
VBAT18
LDO18
Internal pull-down resistor
Interface to ATR0601, Schmitt
trigger input
NRESET
POWER
Active antenna power on output
TDI
MCLK_OUT
RESET
Enable EEPROM support
TDO
CLK23
CLOCK
GPS synchronized time pulse
Active Level Comment
Open drain with internal pull-up
resistor
Out
–
1.8V backup voltage
LDO in
Power
–
2.3V to 3.6V
LDO out
Power
–
1.8V core voltage, maximum
80 mA
LDO enable
Input
–
1. The USB transceiver is disabled if VDD_USB < 2.0V. In this case the pins USB_DM and USB_DP are connected to GND
(internal pull-down resistors). The USB transceiver is enabled if VDD_USB is within 3.0V and 3.6V.
ATR0621P1
4975BS–GPS–05/08
ATR0621P1
3.3
External Connections for a Working GPS System
Figure 3-2.
Example of an External Connection
ATR0601
SIGH
SIGL
SC
PuRF
PuXTO
SIGHI
SIGLO
CLK23
RF_ON
NSLEEP
NC
NRESET
see Table 3-15
NC
EM_DA0 - 15
EM_A1 - 19
see Table 3-15
see Table 3-15
see Table 3-15
see Table 3-15
see Table 3-15
P0 - 7
P9 - 15
P16 - 17
P19
P23 - 30
NC
NC
NC
NC
NC
TMS
TCK
TDI
NTRST
TDO
NC
DBG_EN
GND
+3V
(see Power Supply)
GND
NSHDN
LDO_EN
LDO_OUT
VDD18
LDO_IN
LDOBAT_IN
ATR0621P1
P8
P20
STATUS LED
TIMEPULSE
USB_DM
USB_DP
Optional
USB
P31
P18
Optional
USART 1
P22
P21
Optional
USART 2
XT_IN
XT_OUT
32.368 kHz
(see RTC)
+3V
(see Power Supply)
VDDIO
+3V
(see Power Supply)
VBAT18
VBAT
VDD_USB
+3V
(see Power Supply)
GND
NC: Not connected
11
4975BS–GPS–05/08
4. Ordering Information
Extended Type Number
Package
MPQ
Remarks
ATR0621P1-7FQY
LFBGA100
2000
9 mm × 9 mm, 0.80 mm pitch, ROM5, RoHS-compliant,
automotive type
ATR0621P1-7FHW
LFBGA100
2000
9 mm × 9 mm, 0.80 mm pitch, ROM5, RoHS-compliant, green,
automotive type
ATR0622-EK1
-
1
Evaluation kit/road test kit
ATR0622-DK1
-
1
Development kit including example design information
5. Package LFBGA100
Package: R-LFBGA 100_G
Dimensions in mm
∅ 0.08 M
∅ 0.15 M
∅ 0.38 ... 0.48 (100x)
C
BA
A1 Corner
Top View
9±0.05
A
B
C
D
E
F
G
H
J
K
10 9 8 7 6 5 4 3 2 1
A
B
C
D
E
F
G
H
J
K
0.8
6 7 8 9 10
A1 Corner
7.2
1 2 3 4 5
Bottom View
0.8
A
7.2
0.15 (4x) C
0.2 C
0.27 ... 0.37
Issue: 2; 27.10.05
1.4 max
0.12 C
Drawing-No.: 6.580-5003.01-4
0.53 ref.
9±0.05
B
(0.36)
technical drawings
according to DIN
specifications
Seating plane
C
Moisture sensitivity level (MSL) = 3
12
ATR0621P1
4975BS–GPS–05/08
ATR0621P1
6. Revision History
Please note that the following page numbers referred to in this section refer to the specific revision
mentioned, and not to this document.
Revision No.
History
4975BS-GPS-05/08
• Table 3-1 “ATR0621P1 Pinout” on page 5: Pin type of pin CLK23 changed.
13
4975BS–GPS–05/08
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4975BS–GPS–05/08