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Pycom FiPy

PYCO_FIPY

New product

Imagine 5 networks in one perfectly-formed, same-small-foot-print-as-WiPy- LoPy-and SiPy, IoT development board. MicroPython enabled. Featuring WiFi, Bluetooth, LoRa, Sigfox and dual LTE-M (CAT M1 and NBIoT) the FiPy gives access to all the world’s LPWAN networks on one tiny board.

More details

2 Items

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54,01 €

Volume discounts

Quantity Discount You Save
5 1% Up to 2,70 €
20 2% Up to 21,60 €
35 3% Up to 56,71 €
50 4% Up to 108,02 €
65 5% Up to 175,53 €
80 6% Up to 259,24 €
100 7% Up to 378,06 €

More info

Imagine 5 networks in one perfectly-formed, same-small-foot-print-as-WiPy- LoPy-and SiPy, IoT development board. MicroPython enabled. Featuring WiFi, Bluetooth, LoRa, Sigfox and dual LTE-M (CAT M1 and NBIoT) the FiPy gives access to all the world’s LPWAN networks on one tiny board.

NOTE: The LTE Antenna MUST always be used with LTE CAT M1 / NB1, or it could cause serious damage to the development board.


Description

SHIPPING NOW. Also available as a bundle value deal.

Note: The LTE Antenna MUST always be used with LTE CAT M1 / NB1, or it could cause serious damage to the development board.

Imagine 5 networks in one perfectly-formed, same-small-foot-print-as-WiPy- LoPy-and SiPy, IoT development board. MicroPython enabled. FiPy includes WiFi, Bluetooth, LoRa, Sigfox and dual LTE-M (CAT M1 and NBIoT) the FiPy gives access to all the world’s LPWAN networks on one tiny board.

Get on with a board that gives you full flexibility during testing, install, deployment and even later when you want to switch real-time your airtime network provider. You can switch when the time is right for you or set some parameters that will do so automatically.

 
FiPy Features

– Powerful CPU
– Five networks: WiFi, BLE, cellular LTE-CAT M1/NB1, LoRa and Sigfox
– 1KM WiFi range
– MicroPython enabled
– Fits in a standard breadboard (with headers)
– Ultra-low power usage: a fraction compared to other connected microcontrollers
Processing

– Espressif ESP32 SoC
– Dual processor and WiFi radio system on chip
– Networking processor handles the WiFi connectivity and the IPv6 stack
– Main processor is entirely free to run the user application
– An extra ULP-coprocessor that can monitor GPIOs, the ADC channels and control most of the internal peripherals during deep-sleep mode while only consuming 25uA
Interfaces

– 2 x UART, 2 x SPI, I2C, micro SD card
– ANalog channels: 8×12 bit ADCs, 2×8 bit DAC
– Timers: 2×64 bit with PWM with up to 16 channels
– DMA on all peripherals
– GPIO: Up to 22
Hash / Encryption

SHA, MD5, DES, AES
WiFi Networking

802.11b/b/n 16mbps
Bluetooth

Low energy and classic
RTC

Running at 32KHz
Range

Node range: Up to 50km
Security & Certifications

– SSL/TLS support up to 1.2
– WPA Enterprise security
– AES encryption engine
Memory

– RAM: 4MB
– Flash Memory: 8MB
– GPIO: Up to 22
– Hardware floating point acceleration
– Python multi-threading
Power

– Voltage Input: 3.3V – 5.5V
– 3v3 output capable of sourcing up to 400mA
Sigfox Operating Frequencies

RCZ1 – 868MHz(Europe)

RCZ2 – 902MHz (US, Canada and Mexico)

RCZ3 – (Japan and Korea)

RCZ4 – 920-922MHz (ANZ, Latin America and S-E Asia)
Sigfox Specification

– TI CC1125NarrowbandTransceiver

– Class 0 device. Maximum Tx power:

    – +14dBm (Europe)
    – +22dBm (America)
    – +22dBm (Australia and New Zealand)

– Node range: Up to 50km

– Sigfox pre-certified (October 2016)

– Power

    – Sigfox (Europe): 17mA in Rx mode, 47mA in Tx mode and 0.5uA in standby
    – Sigfox (Australia, New Zealand and South America):
    24mA in rX mode, 257 mA in Tx mode and 0.5uA in standby

Bluetooth Networking

– Low energy and classic

– Compliant with Bluetooth v4.2 BR/EDR and BLE specification

– Class-1, Class-2 and Class-3 transmitter without external power amplifer

– Enhanced power control

– +10dBm transmitting power

– NZIF receiver with -98 dBm sensitivity

– Adaptive Frequency Hopping (AFH)

– Standard HCI based on SDIO/SPI/UART

– High speed UART HCI, up to 4 Mbps

– BT 4.2 controller and host stack

– Service Discover Protocol (SDP)

– General Access Profile (GAP)

– Security Manage Protocol (SMP)

– Bluetooth Low Energy (BLE)

– ATT/GATT

– HID

– All GATT-based profile supported

– SPP-Like GATT-based profile

-BLE Beacon

-A2DP/AVRCP/SPP, HSP/HFP, RFCOMM

– CVSD and SBC for audio codec

– Bluetooth Piconet and Scatternet
LoRa Operating Frequencies

– 868MHz(Europe) at +14dBm maximum

– 915MHz (North and South America, Australia and New Zealand) at +20dBm maximum
LoRa Specification

– Power consumption: 10mA Rx, 28mA Tx

– LoRaWAN stack – Class A and C devices

– Node range: Up to 40km

– Nano-gateway: Up to 22km (Capacity up to 100 nodes)
LTE-M Operating Frequencies

– 34 bands supports from 699Mhz to 2170Mhz (Total world-wide support)
LTE-M Specification

– One single chip for both CAT M1 and NB1 (yes, only one chip)

– 3GPP release 13 LTE Advanced Pro

– Supports narrowband LTE UE categories M1/NB1

– Integrated baseband, RF, RAM memory and power management

– Reduced Tx power class option

– Peak power estimations: TX current = 420mA peak @1.5Watt RX current = 330mA peak @1.2Watt

– Data rates:

    – 300 kbps DL
    – 375 kbps UL (LTE Cat M1 in 1.4 Mhz, HD-FDD)
    – 40 kbps DL
    – 55 kbps UL (LTE Cat M2 in 200 kHz, HD-FDD)

Tx/Rx Frequencies
Ports for LTE Bands
    
Tx frequencies
    
Rx frequencies
Low bands 5, 8, 12, 13, 18, 19, 20, 28
    
699 to 915 MHz
    
729 to 960 MHz
Mid bands 1, 2, 3, 4
    
1710 to 1980MHz
    
1805 to 2170 MHz
WiFi Networking

– Up to 1km range

– 802.11b/g/n 16mbps

– Power: 12mA in active mode, 5uA in standby
Size

55m x 20mm x 3.5mm (Without Headers)
Weight

– 7g
– 31g (Packaged)