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The dual-frequency OEM615 offers future ready, precise positioning for space constrained applications. Backward compatible with NovAtel's popular OEMV-1 form factor, the OEM615 provides the most efficient way to bring powerful Global Navigation Satellite System (GNSS) capable products to market quickly.
DESIGNED WITH PERFORMANCE AND THE FUTURE IN MIND
The OEM615 tracks all current GNSS constellations including GPS, GLONASS, Galileo, BeiDou and QZSS. It features configurable channels to optimize satellite availability in any condition, no matter how challenging.The OEM615 is software upgradable to track future signals as they become available. Maximizing satellite availability and optimizing GNSS signal usage now, and in the future, ensures consistent, high performance GNSS positioning.
DESIGNED FOR FLEXIBILITY
The modular nature of NovAtel's OEM6® firmware gives users the flexibility to configure the OEM615 for their unique application needs. The OEM615 is scalable to offer sub-metre to centimetre-level positioning, and is field upgradable to all OEM6 family software options. Options include NovAtel CORRECT™ with RTK for centimetrelevel realtime positioning, ALIGN® for precise heading and relative positioning, GLIDE™ for decimetre-level pass-to-pass accuracy, SPAN for continuous 3D position, velocity and attitude and RAIM for increased GNSS pseudorange integrity.
CUSTOMIZATION WITH AN API
Application Programming Interface (API) functionality is available on the OEM615. Using a recommended compiler with the API library, an application can be developed in a standard C/C++ environment to run directly on the receiver platform, eliminating system hardware, reducing development time and resulting in a faster time to market.
BENEFITS
Proven NovAtel technology
Easy to integrate
Low power consumption
API reduces hardware requirements and system complexity
FEATURES
Increased satellite availability with GLONASS tracking
L1, L2, L2C, B1 and E1 signal tracking
GLIDE smoothing algorithm
RT-2®, ALIGN and RAIM firmware options
SPAN® INS functionality
PERFORMANCE
Channel Configuration
120 Channels
Signal Tracking
GPS L1, L2, L2C
GLONASS L1, L2
BeiDou B1
Galileo E1
SBAS
QZSS
Horizontal Position Accuracy (RMS)
Single Point L1 1.5 m
Single Point L1/L2 1.2 m
SBAS3 0.6 m
DGPS 0.4 m
NovAtel CORRECT
RT-2 1 cm + 1 ppm
Initialization time < 10 s
Initialization reliability >99.9%
Measurement Precision (RMS)
Fully independent code and carrier measurements:
GPS GLO
L1 C/A code 4 cm 8 cm
L1 carrier phase 0.5 mm 1 mm
L2 P(Y) code 8 cm 8 cm
L2 carrier phase 1 mm 1 mm
L2C code 8 cm 8 cm
L2C carrier phase 1 mm 1 mm
Maximum Data Rate
Measurements 50 Hz
Position 50 Hz
Time to First Fix
Cold start < 50 s
Hot start < 35 s
Signal Reacquisition
L1 < 0.5 s (typical)
L2 < 1.0 s (typical)
Time Accuracy 20 ns RMS
Velocity Accuracy 0.03 m/s RMS
Velocity Limit 515 m/s
PHYSICAL AND ELECTRICAL
Dimensions 46 × 71 × 11 mm
Weight <24 g
Power
Input voltage +3.3 VDC ±5%
Power Consumption
GPS L1/L2 <1.0 W
GPS/GLONASS L1/L2 1.1 W
all on 1.2 W
Antenna LNA Power
Input voltage 6 VDC-12 VDC
Output voltage 5.0 VDC
Max output current 100 mA
Connectors
Main
20-pin dual row male header
Antenna Input MCX female
COMMUNICATION PORTS
3 LVTTL up to 921,600 bps
2 CAN Bus12 1 Mbps
1 USB 12 Mbps
Pulse Per Second (PPS) output
ENVIRONMENTAL
Temperature
Operating -40°C to +85°C
Storage -55°C to +95°C
Humidity 95% non-condensing
Vibration
Random MIL-STD 810G
(Cat 24, 7.7 g RMS)
Sinusoidal IEC 60068-2-6
Bump ISO 9022-31-06 (25 g)
Shock MIL-STD-810G (40 g)
Survival (75 g)
FEATURES
•Field upgradeable software
•Multi-path mitigating technology
•Differential GPS positioning
•Differential correction support for RTCM 2.1, 2.3, 3.0, 3.1, CMR, CMR+ and RTCA
•Navigation output support for NMEA 0183 and detailed NovAtel ASCII and binary logs
•Auxiliary strobe signals, including a configurable output for time synchronization and mark inputs
•Outputs to drive external LEDs
•GLIDE smoothing algorithm
