Gnss Kolida K96T

Gnss Kolida K96T

KOLIDA
K96T-2898
kg
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Gnss Kolida K96T, 2014, KOLIDA Promocionael nuevo GNSS K96-T. Eredato con las propriedades eccelentes de los modelos antiguos. El Gnss Kolida K96-T es mas fiable y estable gracias a las mejoras echas en estos ultimos 2   años, para ofrecer mejor y mas ventajas a los clientes. Base o Rover

I principali miglioramenti sono:  

a. Hardware design

b. Firmware 

c. Operation method 

Gnss Kolida K96T

 

 

2014, KOLIDA would grandly promote K96-T. Inherited with the excellent properties, K96-T has a great upgrade in reliability and stability to provide better product experience for customers.  

Main improvements are happened on:  

a. Hardware design

b. Firmware 

c. Operation method 

What is changed in hardware?

 

Gps Gnss K96T Antenna

1. GNSS antenna has been enhanced to all-frequency antenna, which supports signals from all the existing or under construction Navigation Satellites.

Now, K96-T can receive satellite signals from GPS, GLONASS, COMPASS, SBAS and other satellite signals. After Galileo Positioning System completely comes to use in the future, K96-T need no modification in hardware, but only some upgrade in software to trace and analyze its signals.

2. Thanks to the larger reflector board as well as low noise RF amplifier, K96-T can quickly restore the GNSS signals. With the help of BD970 mainboard, K96-T is provided with an enhanced fast positioning ability in low elevation angle and multipath interference environment. 

3. The CPU for K96-T has been upgraded to ARM Cortex M4 Core With 100% increment in speed when compared with K9-T, its energy consumption became lower, and processing result became more stable. Internal memory has been upgraded from 64M to 4G, which supports long time continuous measurement, and provides more convenience for outdoor static data collection.

4. The hardware structure design is more rational now. All different function modules are integrated together. With fewer cables, wires, plugs inside the receiver, the connection failures are less than before.

5. Polymer materials are widely used in K96T to provide a complete and effective protection. When you put your hands onto the receiver, the feeling is more comfortable than old machines. K96T can survive from 2.5m drop and 1m water immersion. 

 

 

What is changed in software? 

 

1. Thanks to its enhanced conceptual design, integrated hardware &software, and optimized overall architecture for firmware, operator can control all the electronic modules with one file, which provides a great convenience for later maintenance and upgrade. The receiver works more smoothly under the new software architecture, systems errors caused by disc virus has been eliminated.

 

2. Eleven indicator lights real-time indicate the Data Link Mode, Work Mode, Battery Level, and other work modes, to inform operator its work state. K96-T also supports to switch modes without power off, and enables operators to switch between Base Mode, Rover Mode, and Static Mode directly, which makes the freshman easier to learn the operation. 

 

What is new for working method?

 

1. Built-in radio has integrated with receiving and emitting functions. It is compatible to all brands receiver, and meets the requirements for wireless transmission in 1-5 km distance. World’s famous brands of GPRS module seamlessly support mobile network of more than 95% countries and districts of the world. Whether it is in Europe or Latin America, K96-T guarantees seamless connection with CORS networks.

2. Even if there is no CORS or Radio nearby, K96-T can also provide connection from base to rovers, under the TCP/IP agreements.

 Brochure PDF

K96T-IT:
K9T-EN

Precision in a 1Hz bandwidth
Signal-to-Noise ratios reported in db-Hz
Proven low elevation tracking technology
Initialization time <15s
initialization reliability>99.9%
Satellite signals tracked simultaneously
GPS:           
L1 C/A, L2E, L2C, L5(reserved)
GLONASS:
L1 C/A, L1P,
L2 C/A (GLONASS M only), L2P
SBAS:         
L1 C/A, L5(reserved)
Gallileo:    (reserved)
GIOVE-A:  L1 BOC, E5A, E5B, E5AltBOC 
GIOVE-B:  L1 CBOC, E5A. E5B, E5AltBOC
Compass: (reserved)
B1(QPSK), B1-MBOC(6,1,1/11) , B1-2 (QPSK),
B2(QPSK), B2-BOC(10,5 ) ,
B3(QPSK), B3BOC(15,2.5),
L5 (QPSK).

Features:
Receiver part
Advanced Trimble Maxwell 6 Custom Survey GNSS chip with 220 channels
High precision multiple correlator for GNSS pseudorange measurements
Unfiltered, unsmoothed pseudorange measurements data for low noise, low multipath error, low time domain correlation and high dynamic response
Very low noise GNSS carrier phase measurements with <1mm
Precision in a 1Hz bandwidth
Signal-to-Noise ratios reported in db-Hz
Proven low elevation tracking technology
Initialization time <15s
initialization reliability>99.9%
Satellite signals tracked simultaneously
GPS:           
L1 C/A, L2E, L2C, L5(reserved)
GLONASS:
L1 C/A, L1P,
L2 C/A (GLONASS M only), L2P
SBAS:         
L1 C/A, L5(reserved)
Gallileo:    (reserved)
GIOVE-A:  L1 BOC, E5A, E5B, E5AltBOC 
GIOVE-B:  L1 CBOC, E5A. E5B, E5AltBOC
Compass: (reserved)
B1(QPSK), B1-MBOC(6,1,1/11) , B1-2 (QPSK),
B2(QPSK), B2-BOC(10,5 ) ,
B3(QPSK), B3BOC(15,2.5),
L5 (QPSK).
Specification:
Receiver accuracy
REAL TIME KINEMATIC SURVEYING
horizontal accuracy: 10mm+1ppm RMS
vertical accuracy: 20mm+1ppm RMS
WAAS differential positioning accuracy   typically: <5m  3D RMS
Static AND Fast static GNSS Surveying
Static horizontal accuracy: ±3mm+1ppm RMS
Static vertical accuracy: ±5mm+1ppm RMS
Code differential GNSS positioning
Code differential positioning accuracy: 0.45m(CEP)
Single positioning accuracy: 1.5m(CEP)

Physical specification
Size Height: 96mm   Diameter:186mm
60mm from the airproof rubber loop to the bottom
Weight: 1.2kg with internal battery, internal radio standard UHF antenna.
Temperature
Operation temperature:-25℃ to 60℃ (-13 F to140 F )
Storage temperature:-55℃ to 85℃ (-67 F to 185 F)
Humidity: 100% condensing
Water / dustproof:  protected from temporary immersion to depth of 1m
Shock and vibration: tested and meets the following
environmental standards:
Shock: non-operating: Designed to survive a 2m pole Drop on to concrete. Operating: to 40G, 10 msec, sawtooth

Electrical
Power 9 to a 15V DC external power input with over-voltage Protection on port 1 (5-pin Lemo)
Rechargeable, removable 7.4V, 2.3 Ah Lithium-lon battery in internal battery compartment. Power consumption is 3.8W, in RTK rover
Mode with internal radio, operating times on internal battery:
-450MHz receive only option: 4.8hours
-GSM/GPRS: 4hours

Communication and data storage
3-wire serial (5-pin Lemo) on port 1, 3-wire serial+1.1 USB on port 2(DB9)
Full integrated, fully sealed internal 450MHz receiver
Fully integrated, fully sealed internal GSM/GPRS option
Fully integrated, fully sealed 2.4Ghz communications
port(Bluetooth)
External cellphone support for GSM/GPRS modems for RTK and VRS operations
Data storage on 64MB internal memory: 45.7 days of raw
observables (approx. 1.4MB per Day), based on recording
every 15 seconds from an average of 14 satellites
1Hz,2Hz, 5Hz, 10Hz and 20Hz positioning
CMR, RTCM2.3, RTCM3.0 input and output
0183 NMEA outputs

Radio Frequency
430-450 MHz ( interval 12.5khz) or 450-470 MHz