DJI Phantom 4 RTK SDK
- Fjernkontrol uden skærm (SDK)
- Benyt 4G-simkort
- Understøtter fx GSM NET
DJI Phantom 4 RTK er designet til kravene for opmåling og kortlægning. Dronen er en kompakt løsning med et højopløsningskamera som giver centimeter-nøjagtige RTK-data som lagres direkte ned i dine billeders metadata. Et uundværligt værktøj landopmålere, arkitekter, ingeniører og inspektører
Du kan med DJI Phantom 4 RTK benytte 4G-simkort, til at koble op til virtuelle reference-stationer.
I fjernkontrollen kan simkortet indsættes, hvorefter det via DJI RTK-appen kan opsættes direkte via den indbygget skærm.
Derved behøver du ikke en basestation for RTK korrektioner med i felten.
I kombination med DJI Terra kan man med en drone i Phantom 4 serien inklusiv Phantom 4 RTK faktisk styre dronen med en pc.
På den måde kan du faktisk indsamle og live generer 2D og 3D modeller mens dronen er i luften og tager billederne.
Du kan også bruge billederne fra Phantom 4 RTK til andre mapping softwares og danne ultrapræcise 2D og 3D modeller.
Phantom 4 RTK er en kompakt og nemmere løsning end konventionelle mapping metoder og en branchestandard for mange i dag.
Med sit kraftige 20Mp 1 tomme kamera sensor der med en mekanisk shutter tager højopløsningbilleder uden riskio for udtværing.
Phantom 4 RTK dronen kan opnå en Ground Sample Distance (GSD) på 2,74cm/ pixel med en flyvehøjde på 100m. Derved kan du hurtigt og sikkert samle store kort med en præcision der opfylder branchens standardkrav.
Vi har også kurser i både Mapping og Inspektioner som suplement til vores erhvervsdroner. Læs mere på vores kursusside.
Med SDK varianten kan du tilslutte din egen tablet eller telefon og derved få mulighed for at bruge en anden styringssoftware til dronen.
Skab dine egne missioner, og udnyt din drone til fuldest. Tilpasselig og med mange muligheder.
Læs mere på DJI.com om hvilke typer software der passer til og husk at det ikke er alle 3. parts software der på nuværende tidspunkt er supporteret.
Vi kigger hjertens gerne ud til en snak om hvordan Droner.dk kan hjælpe jer til at udnytte jeres droner endnu bedre, eller hvordan i opbygger jeres helt egen Droneafdeling. Om i har fløjet i årevis eller aldrig før så klæder vi jer på til fremtidens arbejde!
Aircraft
Takeoff Weight | 1391 g |
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Diagonal Distance | 350 mm |
Max Service Ceiling Above Sea Level | 19685 ft (6000 m) |
Max Ascent Speed | 6 m/s (automatic flight); 5 m/s (manual control) |
Max Descent Speed | 3 m/s |
Max Speed | 31 mph (50 kph)(P-mode) 36 mph (58 kph)(A-mode) |
Max Filght Time | Approx. 30 minutes |
Operating Temperature Range | 32° to 104° F (0° to 40℃) |
Operating Frequency | 2.400 GHz to 2.483 GHz (Europe, Japan, Korea) 5.725 GHz to 5.850 GHz (United States, China) |
Transmission Power (EIRP) | 2.4 GHz CECE (Europe) / MIC (Japan) / KCC (Korea) :< 20 dBm 5.8 GHz SRRC(China) / FCC(United States)/(Taiwan,China):< 26 dBm |
Hover Accuracy Range | RTK enabled and functioning properly: Vertical:±0.1 m;Horizontal:±0.1 m RTK disabled Vertical:±0.1 m(with vision positioning ); ±0.5 m(with GNSS positioning) Horizontal:±0.3 m(with vision positioning); ±1.5 m(with GNSS positioning) |
Image Position Offset | The position of the camera center is relative to the phase center of the onboard D-RTK antenna under the aircraft body's axis:(36, 0, and 192 mm) already applied to the image coordinates in Exif data. The positive x, y, and z axes of the aircraft body point to the forward, rightward, and downward of the aircraft, respectively. |
Mapping Functions
Mapping Accuracy ** | Mapping accuracy meets the requirements of the ASPRS Accuracy Standards for Digital Orthophotos Class â…¢ ** The actual accuracy depends on surrounding lighting and patterns, aircraft altitude, mapping software used, and other factors when shooting. |
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Ground Sample Distance(GSD) | (H/36.5) cm/pixel, H means the aircraft altitude relative to shooting scene (unit: m) |
Data Acquisition Efficiency | Max operating area of approx. 1 km² for a single flight(at an altitude of 182 m, i.e., GSD is approx. 5 cm/pixel, meeting the requirements of the ASPRS Accuracy Standards for Digital Orthophotos Class Ⅲ |
Vision System
Velocity Range | ≤31 mph(50 kph) at 6.6 ft(2 m) above ground with adequate lighting |
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Altitude Range | 0-33 ft(0 - 10 m) |
Operating Range | 0-33 ft(0 - 10 m) |
Obstacle Sensing Range | 2-98 ft(0.7-30 m) |
FOV | Forward/Rear: 60° (horizontal), ±27° (vertical) Downward: 70° (front and rear), 50° (left and right) |
Measuring Frequency | Forward/Rear:10 Hz; Downward: 20 Hz |
Operating Environment | Surfaces with clear patterns and adequate lighting(> 15 lux) |
Camera
Sensor | 1" CMOS; Effective pixels: 20M |
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Lens | FOV 84°;8.8 mm / 24 mm(35 mm format equivalent:24 mm); f/2.8 - f/11, auto focus at 1 m - ∞ |
ISO Range | Video:100-3200(Auto) 100-6400(Manual)ï¼› Photo:100-3200(Auto) 100-12800(Manual) |
Mechanical Shutter Speed | 8 - 1/2000 s |
Electronic Shutter Speed | 8 - 1/8000 s |
Max Image Size | 4864×3648(4:3); 5472×3648(3:2) |
Video Recording Modes | H.264,4K:3840×2160 30p |
Photo Format | JPEG |
Video Format | MOV |
Supported File Systems | FAT32(≤ 32 GB); exFAT(> 32 GB) |
Supported SD Cards | MicroSD, Max Capacity: 128 GB. Class 10 or UHS-1 rating required Write speed≥15 MB/s |
Operating Temperature Range | 32° to 104° F (0° to 40℃) |
Intelligent Flight Battery(PH4-5870mAh-15.2V)
Capacity | 5870mAh |
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Voltage | 15.2V |
Battery Type | LiPo 4S |
Energy | 89.2 Wh |
Net Weight | 468 g |
Charging Temperature Range | 14° to 104℉(-10° to 40℃) |
Max charging Power | 160W |
Capacity | 4920mAh |
Voltage | 7.6V |
Battery Type | LiPo 2S |
Energy | 37.39Wh |
Operating Temperature | -4° to 104℉(-20° to 40℃) |
Intelligent Battery Charing Hub(WCH2)
Input Voltage | 17.3 - 26.2 V |
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Output Voltage and Current | 8.7 V,6 A;5 V,2 A |
Operating Temperature | 41° to 104℉(5° to 40℃) |
GNSS
Single-Frequency, High-Sensitivity GNSS Module | GPS+BeiDou+Galileo*(Asia); GPS+GLONASS+Galileo*(other regions) |
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Frequency Used: GPS:L1/L2; GLONASS:L1/L2; BeiDou:B1/B2; Galileo*:E1/E5a First-Fixed Time:< 50 s Positioning Accuracy: Vertical 1.5 cm + 1 ppm(RMS); Horizontal 1 cm + 1 ppm(RMS) 1 ppm means the error has a 1mm increase for every 1 km of movement from the aircraft. *Available soon |
Gimbal
Stabilization | 3-axis (tilt, roll, yaw) |
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Pitch | -90° to +30° |
Max Controllable Angular Speed | 90°/s |
Angular Vibration Range | ±0.02° |
Infrared
Obstacle Sensing Range | 0.6-23 ft(0.2 - 7 m) |
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FOV | 70°(Horizontal) ±10°(Vertical) |
Measuring Frequency | 10 Hz |
Operating Environment | Surface with diffuse reflection material, and reflectivity> 8%(such as wall,trees, humans, etc.) |
Remote Controller
Operating Frequency | 2.400 GHz-2.483 GHz(Europe,Japan,Korea) 5.725 GHz-5.850 GHz(United States, China) |
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Transmission Power (EIRP) | 2.4 GHz CE / MIC / KCC:< 20 dBm 5.8 GHz SRRC / FCC:< 26 dBm |
Max Transmission Distance | FCC:4.3 mi(7 km); SRRC / CE / MIC / KCC:3.1 mi(5 km) (Unobstrcted, free of interference) |
Power Consumption | 16 W(typical value) |
Display | 5.5 inch screen, 1920×1080, 1000 cd/m², Android System Memory 4G RAM+16G ROM |
Operating Temperature Range | 32° to 104° F (0° to 40℃) |
Intelligent Flight Battery Charging Hub(PHANTOM 4 CHARING HUB)
Voltage | 17.5 V |
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Operating Temperature Range | 41° to 104℉(5° to 40℃) |
Capacity | 4920mAh |
Voltage | 7.6V |
Battery Type | LiPo 2S |
Energy | 37.39Wh |
Operating Temperature | -4° to 104℉(-20° to 40℃) |
AC Power Adapter(PH4C160)
Voltage | 17.4V |
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Rated Power | 160W |