#Module SRRC
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Find nRF5340 module here!
Find nRF5340 module here!
Where to find nRF5340 module quickly? The nRF5340 a dual core solution deployed with 2 Arm Cortex M33 processors. Not only provide faster and powerful for advanced applications, but also LE audio. Raytac knows your anxiety and already distributed the modules available in several channels aimed to provide a speedy and comfortable way to get it.
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MDBT53-1M ModuleMDBT53-P1M…
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#amazon#BLE#bluetooth#BT5.2#BT5.3#CE#digi-key#FCC#IC#LE Audio#MDBT53#MDBT53V#Module#Nordic#nRF53#nRF5340#Raytac#RCM#SRRC#Telec
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6 Tips to Reduce the Risks of Hardware Entrepreneurship
In this case, you probably need to start from scratch: go deep into the market, understand the demand, and run through the supply chain.
Judging from my personal HE Tuber actual product experience: if you do not have a unique advantage or do not have matching resources in the market, the probability of failure is extremely high.
No matter how perfect the product is, no matter how sure you are that you will be a huge success.
You should always strive to minimize risk.
Of course, you can't completely eliminate risk.
But risks can be minimized, investments protected and chances of success increased.
The odds are generally better for hardware startups.
As a start-up, you need to build every possible advantage to help you achieve your financial goals.
Here are six ways you can gain a competitive advantage when bringing new hardware products to market to reduce risk and increase your chances of success.
Hire multiple independent engineers
When it comes to developing electronic hardware products, one of the best ways to reduce risk and increase your chances of success is to hire at least two engineers:
An engineer comes to actually develop the electronics;
Another independent engineer comes to review the design;
Then prototypes are produced.
No matter how good an engineer is, mistakes are almost always made when designing anything complex.
You should always strive to gather as much feedback as possible.
Design reviews are key to preventing mistakes. One thing is certain:
Any hardware product developed by a large company is reviewed by multiple engineers.
For startups, if you have the ability to review.
This will undoubtedly save a lot of personnel costs and be more efficient.
Start with small batches
Your first priority is to get your product to market as quickly as possible and as cheaply as possible.
while minimizing risk.
Risk is something you should focus on before your product achieves significant sales success.
Take the smart lock product that I was personally responsible for as an example. At that time, market verification had been initially completed.
Then they started to build assembly plants and made a lot of investment in mass production, and the capital chain was almost broken.
That is, if you go bankrupt before getting your product to market.
Then there is no point in focusing on maximizing profits.
Use electronic modules
One of the best ways to reduce electronics complexity, and therefore risk, is to use proven electronic modules for certain functions.
For example, if your product requires wireless functionality, you will need to obtain a radio certification license from your region or country.
Certification usually takes a long time, and some also charge certification fees.
For example, in China you need to obtain radio certification SRRC.
For example, when I personally used Bluetooth and WiFi when making products in the early days, I needed to undergo SRRC certification at this time.
At the beginning, because I was not clear about the specific testing standards, I spent about a month and visited the certification agency three times.
Electronic modules are independent components designed to perform specific functions and are electronic circuits that are easily integrated into other products.
For example, some networking modules of Tuya and Espressif.
Of course, the reality is that most products still require some custom circuit design.
This is because using modules entirely to make products will greatly increase the unit cost.
Secondly, if your product is very small.
For example, in wearable technology, the module size may be too large, making it impossible to use modules for design.
Make full use of manufacturer resources
Most manufacturers have some resources that include assistance with design, engineering, 3D modeling, and prototyping during the product development process.
They may also connect you with suppliers, such as component and packaging suppliers.
If you have a viable product and maintain consistent sales.
They can also provide you with billing terms, such as allowing you to pay within 30 to 90 days after shipment, etc.
This will greatly improve your cash flow and increase your competitiveness.
When you work with a manufacturer, they generally allow for amortization of tooling costs.
Build a customer base before building a product
You need market feedback from day one.
Don’t wait until your product is ready to hit the market before you start thinking about how to sell it.
You need to gain some market traction as quickly as possible.
Hardware startups face serious challenges, and you can reduce risk and increase your chances of success by exploring these strategies.
This has two benefits:
First, you will be able to get quick market feedback from potential future customers;
Secondly, once your product is available for sale, there will be a large number of customers ready to buy your product.
Pre-sell your products
People may praise your product.
But all the praise means nothing unless it's accompanied by sales.
You need to pre-sell your product and test it in the market.
Getting feedback quickly can let you know whether the product has value and whether it's worth spending more of your resources.
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Buy Espressif ESP Wrover kit & development board online at affordable price from Campus Component a leading electronic component provider in India. The ESP-WROVER-KIT-VB is a variant of ESP-WROVER-KIT that comes with an ESP32-WROVER-B module by default. This board features support for an LCD and Micro SD card. The I/O pins have been broken out from the ESP32-WROVER-B for easy extension.
The board carries an advanced multi-protocol USB bridge (the FTDI FT2232HL), enabling developers to use JTAG directly to debug the ESP32 module through the USB interface. The development board makes secondary development easy and cost-effective. Module is FCC/ CE/ KCC/ IC/ TELEC/ SRRC/NCC certified. To know more about this product call on
+919767444555
or visit website
https://www.campuscomponent.com/products/espressif-esp-wrover-kit-vb-2-4-ghz-wifi-and-bt-ble-development-board/2208614000001841096
#Espressif ESP Wrover#esp32 wrover#esp32 development board#esp 32 datasheet#esp32 espressif#esp8266 wifi module#esp module
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YOUTUBE LINK
http://bit.ly/2YB17NJ
DJI Robomaster S1 STEAM DIY 4WD Brushless HD FPV APP Control Intelligent Educational Robot With AI Modules Support Scratch 3.0 Python Program
BUY NOW
http://fas.st/87COi
Description:
Brand: DJI
Item: Robomaster S1
Product: Smart RC Robot
Battery: 2400Mah Rechargable Lipo Battery
APP, Manual, other information: Click here
Specifiction:
Camera
FOV:120°
Max Still Photo Resolution: 2560×1440
Max Video Resolution: FHD: 1080/30fps / HD: 720/30fps
Max Video Bitrate: 16 Mbps
Photo Format: JPEG
Video Format: MP4
Sensor: CMOS 1/4″; Effective pixels: 5 MP
Operating Temperature Range: -10 to 40 °C (14 to 104 °F)
Narrow Infrared Units:
Effective Range [1]: 6 m (in indoor lighting conditions)
Effective Area: Varies from 10°to 40°
Effective area decreases as distance from the target increases.
Wide Infrared Units:
Effective Range [1]: 3 m (in indoor lighting conditions)
Effective Width: 360° (in indoor lighting conditions)
Hit Detector:
Detection Requirements: For the Hit Detector to be activated, the following conditions must be met: Gel bead diameter ≥ 6mm, launching speed ≥20m/s, and the angle between the hit direction and hit detector plane is no less than 45°.
Maximum Detection Frequency: 15 Hz
DJI Robomaster S1:
Weight: Approx. 3.3 kg
Dimensions: 320×240×270 mm (length × width × height)
Chassis Speed Range:
0-3.5 m/s (forward)
0-2.5 m/s (backward)
0-2.8 m/s (sideways)
Max Chassis Rotational Speed: 600°/s
M3508I Brushless Motor:
Max Rotational Speed: 1000 rpm
Max Torque: 0.25N*m
Max Output Power: 19 W
Operating Temperature Range: -10 to 40 °C (14 to 104 °F)
Driver: FOC
Control Method: Closed-loop speed control
Protection: Overvoltage/Overtemperature/Soft-start/Short-circuit/Chip and sensor anomaly detection
Control:
Controllable Launching Frequency: 1-8/s
Max Launching Frequency: 10/s
Initial Launching Speed: Approx. 26 m/s
Average Load: Approx. 430
Gimbal:
Controllable Range: Pitch: -20° to +35°/ Yaw: ±250°
Mechanical Range: Pitch: -24° to +41° / Yaw: ±270°
Max Rotational Speed: 540°/s
Vibration Control (on the flat surface): ±0.02°
Intelligent Controller:
Latency (depending on environmental conditions and mobile device):
Connection via Wi-Fi: 80-100ms /Connection via Router: 100-120ms
(unobstructed, free of interference)
Live View Quality: 720p/30fps
Max Live View Bitrate: 6 Mbps
Operating Frequency: 2.4 GHz, 5.1 GHz, 5.8 GHz
Operating Mode: Connection via Wi-Fi, Connection via Router
Max Transmission Distance (unobstructed, free of interference):
①Connection via Wi-Fi:
FCC, 2.4 GHz 140 m, 5.8 GHz 90 m
CE, 2.4 GHz 140 m, 5.8 GHz 70 m
SRRC, 2.4 GHz 130 m, 5.8 GHz 130 m
MIC, 2.4 GHz 140 m
②Connection via Router:
FCC, 2.4 GHz 180 m, 5.8 GHz 300 m
CE, 2.4 GHz 180 m, 5.1 GHz 100 m
SRRC, 2.4 GHz 180 m, 5.8 GHz 300 m
MIC, 2.4 GHz 170 m, 5.1 GHz 180 m
Transmission Power (EIRP):
①2.400-2.4835 GHz
FCC: ≤30 dBm
SRRC: ≤20 dBm
MIC: ≤20 dBm
②5.170-5.25 GHz
FCC: ≤30 dBm
SRRC: ≤23 dBm
MIC: ≤23 dBm
③5.725-5.850 GHz
FCC: ≤30dBm
SRRC: ≤30dBm
Transmission Standard: IEEE802.11a/b/g/n
Intelligent Battery:
Capacity: 2400 mAh
Nominal Charging Voltage: 10.8 V
Maximum Charging Voltage: 12.6 V
Battery Type: LiPo 3S
Energy: 25.92 Wh
Weight: 169 g
Operating Temperature Range: -10 to 40 °C (14 to 104 °F)
Charging Temperature Range: 5 to 40 °C (41 to 104 °F)
Maximum Charging Power: 29 W
Battery Life in Use: 35 minutes (measured at a constant speed of 2 m/s on a flat surface)
Battery Life on Standby: Approx. 100 minutes
Charger:
Input: 100-240 V, 50-60Hz, 1A
Output Port: 12.6 V=0.8A or 12.6 V=2.2A
Voltage: 12.6 V
Rated Voltage: 28 W
Gel Bead:
Diameter: 5.9-6.8 mm [2]
Weight: 0.12-0.17 g [2]
App:
App: RoboMaster
iOS: 9.0 or later
Android: Android 5.0 or later
Router:
Recommended Routers:
TP-Link TL-WDR8600; TP-Link TL-WDR5640 (China)
TP-Link Archer C7; NETGEAR X6S (International)
Supported SD Cards: capacity up to 64GB
Recommended outdoor power supply solution for routers: Laptop Power Bank (match the input power of the router)
YOUTUBE LINK
http://bit.ly/2YB17NJ
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cheap Original DJI GL100A Transmitter 2km Video Transmission Range / 2.5h Operation Time for Spark Mini RC Drone
Cheap TOY ACCESSORIES sale, Original DJI GL100A Transmitter 2km Video Transmission Range / 2.5h Operation Time for Spark Mini RC Drone,and more products which you need. We will refund you within 30 days! If the product is not what you expected or if you changed your mind, you will be completely reimbursed.100% New. 1 year Warranty, 100% Guarantee Quality and Fully Test!
TOY ACCESSORIES compatible model:
Brand: DJI
Type: Transmitter
Compatible with: Spark mini RC quadcopterPackage weight: 0.466 kg
Product size (L x W x H): 14.00 x 8.00 x 5.00 cm / 5.51 x 3.15 x 1.97 inches
Package size (L x W x H): 16.20 x 10.00 x 7.10 cm / 6.38 x 3.94 x 2.8 inchesPackage Contents: 1 x Transmitter ( Battery Included ), 1 x Multi-language User ManualProduct Safety Disclaimer:
We do not accept any responsibility or liability for misuse of this or any other product. All our products are extensively tested to comply with rigorous and strict QC standards. For certain products (e.g. toys, knives, etc.), we recommend proper supervision as we cannot be held liable for misuse or accidents.Small Parts Disclaimer:
These toys contain small parts, not for children under 3 years in case of swallowing or choking . We do not accept any responsibility or liability for misuse of this or any other product.
Description:
Spark's transmitter features a brand new WiFi signal transmission system, capable of controlling the aircraft and camera gimbal at a maximum transmission range of 1.2 mi. (2 km) in open area. The transmitter can connect to a mobile device wirelessly and display a live video feed via DJI GO 4. Its folding clamps allow you to attach your mobile device securely. With it, you can control Spark accurately in Sport Mode when it is flying at 31 mph.
Main Features:
Up to 1.2 mi. ( 2km ) video transmission range
Allows the drone to fly at 31 mph ( 50 kph ) in Sport Mode
Can connect to a mobile device wirelessly and display a live video feed via DJI GO 4
About 2.5h operation time provided by the built-in 2970mAh battery
Specifications:
Operating frequencies: 2.412 - 2.462GHz, 5.745 - 5.825GHz
Max. transmission distance ( unobstructed, free of interference ):
2.4GHz: 1.2 mi. ( 2km, FCC ), 0.31 mi. (0.5km, CE), 0.31 mi. ( 0.5km, SRRC )
5.8GHz: 1.2 mi. ( 2km, FCC ), 0.19 mi. ( 0.3km, CE ), 0.75 mi. ( 1.2km, SRRC )
Note: 5.8 GHz transmission is not available in some regions due to local regulations.
Operating temperature range: 32 - 104 Deg.F ( 0 to 40 Deg.C )
Built-in battery capacity: 2970mAh
Transmitter power ( EIRP ):
2.4GHz: 26dBm ( FCC ), 18dBm( CE ), 18dBm ( SRRC )
5.8GHz: 28dBm ( FCC ), 14dBm ( CE ), 26dBm ( SRRC )
Operating current: 950mA at 3.7V
Supported mobile device thickness: 6.5 - 8.5mm
Supported mobile device maximum length: 160mm
Operation time: about 2.5 hours
Charge time: 2 hours
Click here to download the user manual.
Our advantage:
1.A wide range of products: We offer a wide range of products and we make sure to show you all the details so you can quickly research and compare products.
2.Transparent price: In addition to quality service, you will find a guarantee of competitive prices and absolute transparency.
3.High quality meets standards: Each of our products undergoes rigorous testing and quality control. We offer the highest level of safety and the highest quality products.
New Products
Original DJI GL100A Transmitter 2km Video Transmission Range / 2.5h Operation Time for Spark Mini RC Drone
Original DJI Flying LiPo Battery for Tello Drone 2pcs
KAIDENG 2MP 1280 x 720 WiFi FPV Camera Module for PANTONMA K80 Quadcopter
JX CLS - 12V7346 46KG 12V 180 Degrees HV High Precision Steel Coreless Steering Gear Digital Servo Suitable for RC Robot
JX BLS - HV7146MG 46KG 180 Degrees HV Steel Steering Gear Digital Servo for RC Robot
Jumper T12 Plus Multi - protocol Radio Transmitter W / JP4 - in - 1 RF Module Hall Sensor Gimbal
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New Post has been published on https://www.updatedc.com/2019/01/22/dji-multilink-connects-the-inspire-2-master-remote-with-up-to-3-additional-controllers/
DJI Multilink Connects the Inspire 2 Master Remote With Up To 3 Additional Controllers
The DJI Multilink wireless connector connects the Inspire 2 master remote with up to 3 additional controllers. The new Multilink allows slave networks to form a star network with the master controller as the hub, this allows aerial filmmakers more options in camera control and in-flight monitoring.
The system has been designed to work exclusively with the Inspire 2 and Cendence remote controllers. The slave controllers can wirelessly send commands to the aircraft through the master controller and receive images and video signals from the aircraft directly.
With a dual-band operating frequency of 2.4 GHz or 5.8 GHz, the slave controllers can maintain a steady connection to the master controller at distances of up to 150m from each other, which allows for efficient filming even in the least ideal environments. The latency between the master controller and the slave controllers is as low as 2.5ms (5.8G) / 3.7ms (2.4G), allowing for a reliable live-feed of the aircraft’s camera to additional monitors.
The DJI Multilink will retail for $99 USD and $282 USD for a combo that includes 3 Multilinks. The new product is available today from the DJI store, DJI flagship stores and authorized dealers in the US, Europe, and mainland China.
Specifications
Operating Frequency: 2400-2483.5 MHz, 5725-5850 MHz
EIRP: 2.4 GHz: FCC<25 dBm, CE<20 dBm, SRRC<20 dBm; 5.8 GHz: FCC<29 dBm, CE<14 dBm, SRRC<19 dBm
Maximum Communication Distance: 150 m (2.4 GHz), 100 m (5.8 GHz)
Input: 4.2-5.5 V, 1 A Max
Maximum Delay (From Master to Slave 3): 7.5 ms (5.8 GHz) / 11.1 ms (2.4 GHz)
Minimum Delay (From Master to Slave 1): 2.5 ms (5.8 GHz) / 3.7 ms (2.4 GHz)
Operation Environment Temperature: -4 ° to 104 ° F (-20 ℃ to 40 ℃)
Compatible DJI Devices for CAN Port: DJI Focus, Inspire 2 GPS module for the remote controller, Patch Antenna
This latest offering from DJI looks to be a nice addition for Inspire 2 owners who are looking to enhance their aerial filmmaking abilities by letting multiple people focus on just a few tasks.
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DJI Racing Edition VR Goggles - FPV, Superior Imaging Sensor, 2.4 & 5.8GHz, 7km Range, Touch Button Controls
New Post has been published on https://www.reignselectronics.com/shop/dji-racing-edition-vr-goggles-fpv-superior-imaging-sensor-2-4-5-8ghz-7km-range-touch-button-controls/
DJI Racing Edition VR Goggles - FPV, Superior Imaging Sensor, 2.4 & 5.8GHz, 7km Range, Touch Button Controls
DJI Racing Edition VR Goggles
DJI Racing Edition goggles for use with your drone make it feel as though you’re flying. These incredible VR goggles are like being in front of an IMAX screen as you see the world from the perspective of the camera on your drone. The racing edition goggles are a step up from the standard. They feature racing frequencies, a camera and transmitter for your drone, a mount for racing antenna and, most importantly, reduced latency.
The fantastic performance of these VR goggles are ideal for racing through the skies as the FPV is delivered with speed, stability, and clarity thanks to the OcuSync video transmission module that brings dual band 2.4 and 5.8GHz frequencies with a low latency of just 50ms and allows for a control range of up to 7km.
There are 12 selectable transmission channels that allow multiple headsets and drones to operate simultaneously in the same area without interference. The camera module uses a 1/3 inch image sensor that provides high res video transmission that’s superior to most other FPV goggles.
Integrated touch buttons on the side of the VR DJI Goggles RE bring access to the flight settings such as gimble control, flight data and more. The goggles aren’t just restricted to racing drones and can be used with other vehicles and robots offering a range of applications from building inspection to search and rescue.
These precision engineered FPV VR goggles are a real game changer and take your flying to new heights. They come with 12 months warranty, brought to you by the leader in electronic devices as well as wholesale drones and cool gadgets.
Manufacturer Specifications
Screen
Screen Size: 2x 5-inch
Screen Resolution: 3840×1080 (Single Screen: 1920×1080)
Transmitter Power (EIRP): 2.4 GHz: 25.5 dBm (FCC); 18.5 dBm (CE); 19 dBm (SRRC)
Transmitter Power (EIRP): 5.8 GHz: 25.5 dBm (FCC); 12.5 dBm (CE); 18.5 dBm (SRRC)
Live View Modes: 1080p 30fps, 720p 60fps, 720p 30fps
Video Format: MP4 (H.264)
Supported Video Play Format: MP4, MOV, MKV
Audio format: AAC-LC, AAC-HE, AC-3, DTS, MP3
Battery Capacity: 9440mAh
Charger Input: 100-240 VAC, 50/60 Hz, 0.5A
Output: 5V 3A/9V 2A/12V 1.5A
Operating Temperature Range: 0 to +40 Degree Celsius
Camera
Communication Frequency: 2.4 GHz/ 5.8 GHz
Transmitter Power (EIRP): 2.4 GHz: 22.5 dBm (FCC); 18.5 dBm (CE); 19 dBm (SRRC)
Transmitter Power (EIRP): 5.8 GHz: 25.5 dBm (FCC); 12.5 dBm (CE); 25.5 dBm (SRRC)
Live View Modes and Min. Latency: 960p50:70ms / 720p60:60ms / 480p50:50ms
Max. Transmission Distance 2.4 GHz: 7km(FCC) / 4km(CE) / 4km(SRRC)
Max. Transmission Distance 5.8 GHz: 4km(FCC) / 0.7km(CE) / 4km(SRRC)
Recommended Frequency Band: 5.8GHz / CE:2.4GHz / SRRC:5.8GHz
Video Format: MP4 (MPEG4)
I/O Interface: S.Bus, Micro USB, PPM, UART, MMCX, Micro SD card slot
Supported Flight Control System: F3, F4, KISS, NAZE
Supported Remote Controller: X9D(Frsky)/DEVO 10(Walkera)/T8FG(Futaba)/T 14SG(Futaba)/WTF09sll(WFLY)/AT9S(RadioLink)
Operating Temperature Range: 0 to +40 Degree Celsius
Input Power: 9 – 16.8V (3S-4S)
Sensor: 1/3 CMOS 1.2MP
Lens: 2.65mm f/2.0
Lens Group: 6G + IR
Shutter: Global Shutter
ISO: 100 – 3200
FOV: 148 degree(D) / 111 degree(H) / 79.5 degree(V)
Micro USB OTG Cable is required when working with Spark
HDMI (Type A) Female to HDMI (Type C) Male Adaptor is required when working with Inspire 1 series
Automatic FHSS Technology
Dimensions
Main Product Dimensions: 195x155x110 mm (L x W x D)
Main Product Weight: 1520g
Package Contents
DJI Goggles Racing Edition
Charger
Wire Clip
2x Pagoda Antenna(SMA Interface)
Reversed SMA Connector
Micro USB Cable
HDMI Cable
Cleaning Cloth
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ESP-WROOM-02 ESP8266 WROOM Wi-Fi Module
ESP-WROOM-02 is a low-power 32-bit MCU Wi-Fi module based on ESP8266 chip, embedded with TCP/IP network stacks, 10-bit ADC, and HSPI/UART/PWM/I2C/I2S interfaces. ESP-WROOM-S2 uses a 2 MB SPI flash connected to HSPI, working as the SDIO/SPI slave with the SPI speed of up to 8 Mbps.
ESP8266 Module can operate in the low power connectivity modes; for instance, if it operates in DTIM10, it only consumes 1.2mW while maintaining a Wi-Fi connection. The module also integrates an SPI flash of 16 Mbits used for storing user programs, data and firmware.
Certificates and Compliances:
Wi-Fi Alliance, SRRC, FCC, CE, TELEC, IC & KCC Certified
RoHS, Halogen Free, REACH & CFSI Compliant
HTOL, ESD-HM, MSL, μHAST, HTSL
Output Power: +22dBm peak power in FCC certification
Small Form Factor
ESP8266 Module can be easily integrated into space-limited devices due to its small size of only 18mm x 20mm (ESP-WROOM-02) / 16 mm x 23 mm (ESP-WROOM-S2).
http://ift.tt/2fw65ST
September 29, 2017 at 07:17PM
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Nordic nRF5340 Module MDBT53 and MDBT53V By Raytac Corporation
Nordic nRF5340 Module MDBT53 and MDBT53V By Raytac Corporation
Nordic nF5340 is the first wireless SoC with dual core processors which aimed to optimized the performance of complex IoT applications and LE audios. The dual core contains a 1MB Flash / 512K RAM M4F MCU for application processor and another 256K Flash / 64K RAM for network. This structure remarkable optimized the performance also low power efficiency.
Raytac released 5 modules with 2 form…
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#BT5.3#CE#FCC#IC#KC#MDBT53#MDBT53-1M#MDBT53-P1M#MDBT53-U1M#MDBT53V#MDBT53V-1M#MDBT53V-P1M#Module#NCC#Nordic#nRF53#nRF5340#Raytac#SRRC#Telec
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Raytac nRF53 Module BT5.2 Qualified, FCC/IC/CE/Telec/KC Pre-Certified.
The nRF5340 is the world’s first wireless SoC with two Arm® Cortex®-M33 processors. The architecture is including an “Application Processor” which deployed a 1M Flash 512K RAM; and a “Network Processor’ which deployed a 256K Flash and 64K RAM. With the IoT applications has become more and more complex nowadays, nRF5340 is exact the solution to meet higher specification demand of technology and…
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#BLE#bluetooth#BT5.2#CE#FCC#IC#KC#MDBT53#MDBT53V#MIC#Module#NCC#Nordic#nRF53#nRF5340#Raytac#SRRC#Telec
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Raytac Released nRF52833 Module / MDBT50Q Series
Raytac Released nRF52833 Module / MDBT50Q Series
Nordic’s nRF52833 is an advanced mulitiprotocol SoC solution which supporting not only Bluetooth mesh, Thread, Zigbee but also latest BT5.1 direction finding capable radio. The solution is built around 64MHz Arm Cortex-M4 FPU, 512KB flash memory, and 128KB RAM memory with an extended industrial standard working temperature range of -40 °C to 105°C which is an ideal solution for commercial and…
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#bluetooth#BT5.1#CE#FCC#IC#MDBT50Q#Module#NCC#Nordic#nRF52833#Raytac#RCM#SRRC#Telec#Thread#WPC#Zigbee
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Welcome nRF52805 & nRF52820 module on board
Welcome nRF52805 & nRF52820 module on board
It figures, Raytac launched nRF52820 & nRF52805 modules soon after Nordic released the SoC. As usual, all modules by Raytac are Bluetooth qualified and regulation pre-certified by FCC/IC/CE/SRRC/Telec/KC/SRRC/NCC.
With both modules added on the list, whole nRF52 series module road map now has become comprehensive and completed.
#nRF52805 SolutionMDBT42T series designed for highly cost…
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Just right at the start of 2020, we are happy to announce nRF52833 modules are now available!
Raytac’s nRF52833 series modules are introduced in 3 kinds of antenna options (Chip Ceramic / PCB / u.FL connector for external antenna) brings the best usability to meet different implements.
Chip Antenna Version: MDBT50Q-512K
PCB Antenna Version: MDBT50Q-P512K
u.FL Connector Version: MDBT50Q-U512K
Raytac’s nRF52833 MDBT50Q Series modules, supports Bluetooth, Thread, ANT+, and Zigbee multi-protocol solution and BT5.1 direction finding capable radio. All modules are BT5.1 & BT5 Bluetooth qualified and FCC/IC/CE/Telec/KC/RCM/NCC/SRRC/WPC pre-certified, which are the optimized solution that makes it attractive in a very wide range of applications from a performance, time-to-market efficiency, and minimal Bill of Material (BOM) perspective.
Not only modules are in mass production, Raytac also released the module demo board (aka, Eval Board Kit) at the same time. The demo board, MDBT50Q-DB-33, deployed Raytac’s nRF52833 module “MDBT50Q-512K” which is the best tool for developers’s to proceed the developing works.
Some developers may pursue nRF52833 from nRF52840 due to cost effective reason. Raytac would like to remind those developers that nR52833 and nRF52840 are NOT drop in compatible but may need to have some hardware/firmware modification to transfer the project.
For those developers are encouraged to visit our article to learn more about
Change to nRF52833 module? What the Hardware & Firmware Setting Need To Review?
Would like to know more of our nRF52833 modules? Raytac would like invite all developers to contact us or distributors for more information.
Raytac Corporation 勁達國際電子有限公司
A BT5.1 & BT5 & BT 4.2 module maker based on Nordic nRF52 & nRF51 solution
(nRF52840 & nRF52833 & nRF52832 & nRF52810 & nRF52811 & nRF51822)
www.raytac.com email: [email protected] Tel: +886.2.3234.0208
Raytac nRF52833 Series Module MDBT50Q & Demo Board Now Are Available Just right at the start of 2020, we are happy to announce nRF52833 modules are now available!
#ANT#bluetooth#BT5#BT5.1#CE#FCC#IC#KC#MDBT50Q#Module#Nordic#nRF52833#nRF52840#Raytac#RCM#Telec#Thread#Zigbee
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MDBT50Q-RX, a nRF52840 USB Dongle, delivers an easy implement for M2M IoT application
MDBT50Q-RX, a nRF52840 USB Dongle, delivers an easy implement for M2M IoT application
Raytac’s BT5 certified nRF52840 USB dongle, MDBT50Q-RX, eliminating the need for RF design expertise, and speeding time to market for complex M2M IoT applications. The Dongle built by Raytac’s MDBT50Q-P1M module with FCC/IC/CE/Telec/KC/SRRC/NCC/RCM/WPC certification.
Raytac’s MDBT50Q-RX, a Nordic nRF52840 USB Dongle
(more…)
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#BLE#bluetooth#Bluetooth 5#BT5#CE#Dongle#FCC#IC#IOT#KC#MDBT50Q-RX#Module#NCC#Nordic#nRF52840#Raytac#RCM#SRRC#Telec#WPC
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Raytac BT5 MDBT50Q-U External Antenna Type Module (Nordic nRF52840 Solution) Now Is Available
Raytac BT5 MDBT50Q-U External Antenna Type Module (Nordic nRF52840 Solution) Now Is Available
Bluetooth 5 grabs the attention may drop in “Long Range Feature”!
Compare to BT4.X BLE module in the market, mostly reach only about 20~30M.
Even Raytac’s BT4.X series modules, the best performance may about 100~140M line of sight.
Recent released MDBT50Q series, deploy Nordic nRF52840 has dramatically break the barrier of connectivity rage.
Upon the test under 1M bps / sending data and link…
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#bluetooth#BQB#BT5#CE#External Antenna#FCC#IC#IOT#KC#long range#MDBT50Q#MDBT50Q-U#Module#Nordic#nRF52840#Raytac#RCM#SRRC#Telec
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為什麼要選用勁達(Raytac)的藍牙模組?
市面上可以選用的藍牙模組甚多, 常有客戶問我們
“為什麼要選用勁達的模組?“
尺寸, 功能表現, 安規費用, 成本
1. 尺寸:
勁達的藍牙模組是市面上相對較小尺寸的模組模塊, 且模組系列的選擇性多, 可以幫助研發工程人員輕易選用尺寸適合的產品建置在產品當中, 不需要因為受限於模組尺寸的困擾而必須修改產品的外觀設計
2. 功能表現:
勁達的藍牙模組是以Nordic nRF51及nRF52的方案為基礎, 因此除了是ARM Cotex M0或M4的MCU, 且內建16K或32K RAM 及256K或512K flash memory 方便研發工程人員可以設計韌體, 運算演算法
此外, OTA (Over The Air)的DFU (Device Firmware Update)的功能更可以方便更新韌體,…
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#BLE#Bluetooth#BT4.0#BT4.1#BT4.2#BT5#CE#藍芽#FCC#IC#KC#MDBT40#MDBT42#Module#Nordic#nRF51#nRF52#Raytac#SRRC#Telec
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