Pycom FIPY01R FiPy Module User Manual

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FiPy Module
Datasheet
Version 1.0
1.0
Overview
03
13.0
Bluetooth
12
2.0
Features
03
3.0
Specifications
04
3.1
3.2
3.3
3.4
3.5
3.6
3.7
3.8
3.9
3.10
CPU
Memory
WiFi
Bluetooth
LoRa
Sigfox
LTE CAT–M1
Supported features
Specification
Receiver – Basic Data Rate
Receiver – Enhanced Data Rate
Receiver – Bluetooth LE
Transmitter – Basic Data Rate
Transmitter – Enhanced Data Rate
Transmitter – Bluetooth LE
12
12
12
13
14
15
16
17
14.0
LoRa
17
RTC
Security
Hash / encryption
04
04
04
04
04
04
04
04
04
04
13.1
13.2
13.2.1
13.2.2
13.2.3
13.2.4
13.2.5
13.2.6
14.1
14.2
Supported features
Specifications
17
18
15.0
Sigfox
22
4.0
Block Diagram
04
15.1
15.2
Frequencies
Specifications
22
23
5.0
Pinout
05
16.0
LTE CAT–M1
24
6.0
Pin Details
06
6.1
Remapping Pins
07
7.0
ESP32 Peripherals
08
16.1
16.2
16.2.1
16.3
16.4
Supported features
Specifications
Supported LTE bands
SIM Card requirements
Certified carriers
24
24
24
24
24
7.1
RTC
08
8.0
Programming the device
08
17.0
6LoWPAN
25
8.1
8.2
8.2.1
8.2.2
UART
Wi–Fi
Telnet
FTP
08
08
08
08
18.0
Electrical Characteristics
25
18.1
18.2
Absolute maximum ratings
Input/Output characteristics
25
25
9.0
Boot modes
09
19.0
Minimum Recommended Circuit
26
9.1
9.2
Bootloader mode
Safe boot
09
09
20.0
Mechanical Specifications
27
10.0
Power
09
21.0
Recommended Land Pattern
27
10.1
 urrent consumption by power
modes/features measured at 5V
09
11.0
Memory Map
10
11.1
11.2
11.3
Flash
RAM
ROM and eFuses
10
10
10
12.0
WiFi
11
12.1
12.2
Supported features
Specifications
11
11
Version 1.0
22.0 Soldering Profile
28
23.0
Ordering Information
28
24.0
Packaging
28
25.0
Certification
29
25.1
25.2
29
25.2.1
25.2.2
25.2.3
25.2.4
EU Regulatory Conformance
 ederal Communication Commission
Interference Statement
RF Warning Statement
OEM integrator conditions
End Product Labelling
Manual Information to the End User
29
29
29
30
30
26.0
Revision History
30
02
1.0
Overview
With Sigfox, LoRa, WiFi, BLE and cellular LTE–CAT M1,
the FiPy is the latest Pycom MicroPython enabled micro
controller on the market today – the perfect enterprise
grade IoT platform for your connected Things. Create
and connect your things everywhere. Fast.
2.0
Features
– Five Networks: WiFi, BLE, cellular LTE–CAT M1,
––
––
––
––
––
LoRa and Sigfox
Powerful CPU.
Can also double up as a Nano LoRa gateway
MicroPython enabled
Fits in a standard breadboard (with headers)
Ultra–low power usage: a fraction compared to
other connected micro controllers
–– World ready, one product covers all LTE–M bands
Version 1.0
03
3.0
Specifications
3.1
CPU
–– Xtensa® dual–core 32–bit LX6 microprocessor(s), up
to 600 DMIPS
–– Hardware floating point acceleration
–– Python multi–threading
–– 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.
3.2
Memory
–– RAM: 520KB + 4MB
–– External flash: 8MB
3.3
WiFi
–– 802.11b/g/n 16mbps
3.4
Bluetooth
–– Low energy and classic
3.5
LoRa
–– LoRaWAN stack – Class A and C devices
–– Node range: Up to 40km
–– Nano–gateway: Up to 22km
(Capacity up to 100 nodes)
4.0
3.6
Sigfox
–– Class 0 device. Maximum Tx power: 19.58dBm
– Node range: Up to 50km
–
3.7
LTE CAT–M1
– One single chip for CAT M1
– 3GPP release 13 LTE Advanced Pro
– Supports narrowband LTE UE categories M1
– 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
–– Extended DRX (eDRX) and PSM features for long
sleep duration use cases
3.8
RTC
–– Running at 32KHz
3.9
Security
–– SSL/TLS support
–– WPA Enterprise security
3.10
Hash / encryption
–– SHA
–– MD5
–– DES
–– AES
Block Diagram
Vin
Figure 1 – System block diagram
Version 1.0
04
5.0
Absolute MAX per pin 12mA
recommended 6mA
LoRa/Sigfox External Antenna Connector
Reset Button
RST
P0
P1
P2
TX1
P3
RX1
P4
CLK
Connected to the MOSI
LoRa/Sigfox radio MISO
P8
SDA
P9
CLK SCL P10
MOSI
P11
P12
PROGRAM
Port
RX0
TX0
CLKOUT2
U0RXD
CLKOUT3
RGB_LED
CLKOUT1
HS2DATA1 SDDATA1
HS2CMD
SDCMD
HSPIHD
HSPICS0
HS1DATA6
MTD0
Touch3
U0TXD EMACRXD2
ADC2_1 EMACTXCLK
ADC2_0 EMACTXER
RTCIO13 ADC2_3 EMACRXD3
Touch7
RTCIO17
Touch1
RTCIO11
Touch0
RTCIO10
VSPICS0
EMACRXCLK
VSPIQ
SDDATA0
HSPIWP
Touch2
HS2DATA2 SDDATA2
HSPIQ
MTDI
Touch5
HS2DATA3 SDDATA3
HSPIID
MTCK
Touch4
VSPIWP
VSPIHD
WiFi external / internal
antenna selection control pin
Power
GND
Serial Pin
Analog Pin
Control
Physical Pin
Port Pin
Touch Pin
DAC Pin
PWM Pin
ADC2_7
U0CTS
RTCIO12 ADC2_2
RTCIO15 ADC2_5
RTCIO14 ADC2_4
U0RTS
EMACRXDV
EMACTXD0
EMACTXD3
EMACRXER
EMACTXD1
EMACTXEN
ChipPU
GPIO3
GPIO1
GPIO0
GPIO4
GPIO15
GPIO5
GPIO27
GPIO19
GPIO2
GPIO12
GPIO13
GPIO22
GPIO21
Vin (3.4-5.5V)
Connected to
GND
the LTE radio
3V3 ! Up to 1.2-A Maximum Load Capability. Output ONLY.
P23
MTMS
HSPICLK SDCLK
HS2CLK
17 GPIO14 EMACTXD2 ADC2_6 RTCIO16 Touch6
14 GPIO25 EMACRXD0 ADC2_8 RTCIO6
DAC_1
P22
DAC_2
P21
15 GPIO26 EMACRXD1 ADC2_9 RTCIO7
13 GPIO33
ADC1_5 RTCIO8 Touch8 XTAL32
LTE_TX
LTE_RTS
12
GPIO32
ADC1_4 RTCIO9 Touch9 XTAL32
LTE_RX
10 GPIO34
VDET1
ADC1_6 RTCIO4
LTE_CTS
11 GPIO35
ADC1_7 RTCIO5
VDET2
Only Input pins!
ADCPA
GPIO39
SensVN
ADC1_3 RTCIO3
P16
No pullup/pulldown
internal resistance
LTE_WAKE
ADC1_2 RTCIO2
GPIO38
SensCN
GPIO37
SensCP
ADC1_1 RTCIO1
P14
MISO
ADC1_0 RTCIO0
P13
GPIO36
ADCPA
SensVP
40
41
23
24
21
34
16
38
22
18
20
39
42
Hack your FiPy
WiFi / Bluetooth External Antenna Connector
Connect to a 10nF capacitor to
enable Touch Pin function
Internal Functions
Low Level Bootloader
P2
WS2812 LED
36
27
+ GND
GPIO23
GPIO18
EMACCO180
VSPIID
HS1STROBE
U2TXD
HS1DATA5
LoRa / Sigfox Interrupt
LoRa / Sigfox Select
Boot modes and safe boot
P12
+ 3V3
1-3 sec
Safe boot, latest firmware is selected
4-6 sec
Safe boot, previous user update selected
7-9 sec
Safe boot, the factory firmware is selected
LTE antenna
connector
Nano SIM card socket
22/03/18
Distributed and manufactured by Pycom Ltd.
Registered oce:
High Point, 9 Sydenham Road, Guildford, Surrey GU1 3RX, UK
Copyright Š 2017 by Pycom Ltd. All rights reserved. No part of this
document may be reproduced, distributed, or transmitted in any form
or by any means, including photocopying, recording, or other
electronic or mechanical methods, without the prior written
permission of Pycom Ltd, except in the case of brief quotations
embodied in critical reviews and certain other noncommercial
uses permitted by copyright law.
To order contact sales@pycom.io
Pinout
Figure 2 – Module pinout diagram
Note: The ESP32 supports remapping its peripherals to alternative pins. See below for a detailed list.
Version 1.0
Pinout diagram
05
6.0
Pin Details
Table 1 – Module pinout
Module
Pin
ESP32
GPIO
–
Pin
Name
Default Function
ADC
PWM
RTC†
Notes
Reset
Active Low, connected to on–board
button
P0
RX0
(Programming)
Used by the bootloader and to program
the module
P1
TX0
(Programming)
Used by the bootloader and to program
the module
P2
P3
TX1
2*
15
P4
RX1
2*
–
LoRa/Sigfox radio
SPI CLK
27
–
LoRa/Sigfox radio
SPI MOSI
19
–
LoRa/Sigfox radio
SPI MISO
10
P8
11
12
P9
12
13
13
22
If tied to GND during boot the device will
enter bootloader mode. Connected to the
on–board RGB LED
JTAG TDO, SD card CMD
Not recommended for external use
2*
Not recommended for external use
Not recommended for external use
2*
SD card DAT0
SDA
2*
JTAG TDI
P10
SCL (I2C) / CLK
(SPI)
2*
JTAG TCK
P11
MOSI
14
21
P12
15
36
P13
16
37
P14
17
38
P15
18
39
P16
Version 1.0
2*
If tied to 3.3V during boot the device
enters safe boot mode, JTAG MISO,
External WiFi/BT antenna switch, Low =
on–board, High = U.FL
Input only
MISO
Input only
Sequans modem
interrupt
Input only, not recommended for external
use
Input only
06
6.0
Pin Details
Table 1 – Module pinout
Module
Pin
ESP32
GPIO
Pin
Name
Default Function
ADC
19
35
P17
Sequans modem
CTS
Input only, not recommended for
external use
20
34
P18
Sequans modem
RX
Input only, not recommended for external
use, 921600 Baud
21
32
P19
Sequans modem
RTS
Not recommended for external use
22
33
P20
Sequans modem
TX
Not recommended for external use,
921600 Baud
23
26
P21
2*
DAC
24
25
P22
2*
DAC
25
14
P23
2*
JTAG TMS, SD card SCLK
26
–
–
Regulated 3.3V
supply
27
–
–
Ground
28
–
–
Voltage Input
–
23
–
LoRa/Sigfox radio
interrupt
–
18
–
LoRa/Sigfox radio
chip select
PWM
RTC†
Notes
Output only, do not feed 3.3V into this pin
or you can damage the regulator
Accepts a voltage between 3.4V and 5.5V
† The pins on the RTC power domain can be used during deep sleep, specifically GPIO pins will maintain their state while in deep sleep.
* ADC2 is currently not supported in the micropython firmware
6.1
Remapping Pins
	The ESP32 features comprehensive pin remapping
functionality. This allows peripherals to be mapped
onto almost any available GPIO pins. The above table
merely shows the default assignments. For example, the
default mapping has the SPI and I2C clocks overlapping,
Version 1.0
meaning both cannot be used simultaneously without
remapping one to a different pin. For a detailed guide of
what peripheral can be assigned to what pins please read
“Appendix A – ESP32 Pin Lists” of the ESP32 datasheet.
07
7.0
ESP32 Peripherals
Table 2 – Peripherals
Peripheral
Count
Pins
UART
Remappable to any GPIO.
Note: P13–18 can only be mapped to RX or CTS since they are input only.
I2C
Remappable to any GPIO except P13–18 since they are input only and I2C is bi–directional.
SPI
Remappable to any GPIO.
Note: P13–18 can only be mapped to MISO since they are input only.
CAN*
Remappable to any GPIO.
Note: P13–18 can only be mapped to RX since they are input only.
JTAG
TDO = P4, TDI = P9, TCK = P10, TMS = P24
PWM
All GPIO except P13–18 which are input only
ADC
18
Fixed mapping, see Table 1, Only ADC 1 is supported in our micropython firmware.
DAC
Only available on P21 and P22
SD
DAT0 = P8, SCLK = P23, CMD = P4
* Requires an external CAN bus transceiver, we recommend the SN65HVD230 from Texas Instruments.
	 a more detailed description of the ESP32 peripherals
For
along with peripherals not currently supported by our
firmware, please check the ESP32 datasheet.
7.1
RTC
	Our modules by default all use the internal RC oscillator at
150kHz for the RTC. In the case of the FiPy, the external
RTC pins are used by the LTE module, and therefore the
external RTC oscillator is not available.
8.0
Programming the device
8.1
UART
	 default, the modules run an interactive python REPL
By
on UART0 which is connected to P0 (RX) and P1 (TX)
running at 115200 baud. The easiest way to connect to
the FiPy is via our expansion board, but any USB UART
adapter will suffice. Code can be run via this interactive
REPL or you can use our PyMakr plugin for Atom or
Visual Studio Code to upload code to the board.
8.2
Wi–Fi
	By default, the FiPy also acts as a Wi–Fi access point
SSID: fipy–wlan–XXXX
Password: www.pycom.io
Once connected to the FiPy’s Wi–Fi network you can
access it in two ways.
Version 1.0
8.2.1
Telnet
	Running on port 23 is a telnet server. This acts in a
very similar way to the UART. It presents you with an
interactive REPL and can also be used to upload code
via PyMakr.
8.2.2
FTP
	The FiPy also runs a FTP server that allows you to copy
files to and from the device, include an SD card if one is
connected. To connect to this FTP server, you need to use
plain FTP (un–encrypted) with the following credentials:
User: micro
Password: python
08
9.0
Bootmodes
9.1
Bootloadermode
9.2
needs to be placed into bootloader mode. In order to
do this, P2 needs to be connected to ground when the
device reboots. Once in bootloader mode you can use
Safeboot
that skips the boot.py and main.py scripts and goes
straight to the REPL. This is useful if the device is
programmed with code that causes the device to crash or
become inaccessible. To access this mode, you need to
connect P12 to 3.3V and reset the device. Upon entering
safe boot mode, the on–board LED will begin to blink
orange. Depending on the duration the pin is held at 3.3V,
provided with the source code.
Table 3 – Boot modes
0–3 Seconds
3–6 Seconds
boot.py or main.py
(without running boot.py and main.py)
10.0
Power
The FiPy features an on–board voltage regulator that
takes 3.4V – 5.5V from the VIN pin and regulates it to
3.3V. It is important to only use the 3.3V as an output
and not try to feed 3.3V into this pin as this could
damage the regulator.
10.1
Current consumption by power modes/features measured at 3.3V
Table 4 – Power consumption by feature
Mode
Min
Avg.
Max
Units
Idle (no radios)
62.7
mA
LoRa Transmit*
156
mA
Sigfox Transmit†
192
mA
LTE Transmit
173
285
mA
LTE Attached
74.5
mA
WiFi AP
126
mA
WiFi client
137
mA
Bluetooth
121
mA
Deep sleep
24
ÂľA
* More details can be found in section 14.2
† More details can be found in section 15.2
Version 1.0
09
11.0
Memory Map
11.1
Flash
Table 5 – Flash memory map
Name
Description
Start address
Size
NVS
Non–volatile RAM area. Used by the NVS API
0x9000
0x7000
Firmware Slot 0
First firmware slot. Factory firmware is flashed here
0x10000
0x180000
OTA info
Information about the current active firmware
0x190000
0x1000
Firmware Slot 1
Second firmware slot
0x1A0000
0x180000
File system
504KB file system on devices with 4MB flash
0x380000
0x7F000
Config
Config area for LoRa, Sigfox and LTE
0x3FF000
0x1000
File system (2)
4MB file system on devices with 8MB flash
0x400000
0x400000
11.2
RAM
Table 6 – RAM memory map
Name
Description
On–chip SRAM
Internal RAM memory used by the 2 xtensa CPUs
Fast RTC RAM
Fast RAM area accessible by the xtensa cores during
boot and sleep modes
8KB
Slow RTC RAM
Slow RAM area accessible by the Ultra–Low Power
Coprocessor during deep sleep
8KB
External pSRAM
External QSPI RAM memory clocked @ 40MHz
4MB
Name
Description
Size
On–chip ROM
Contains core functions and boot code.
eFuse
256 bits are used for the system (MAC address
and chip configuration) and the remaining 768 bits
are reserved for customer applications, including
Flash–Encryption and Chip–ID
11.3
Size
520KB
ROM and eFuses
Table 7 – Miscellaneous memory
Version 1.0
448KB
1kbit
10
12.0
WiFi
12.1
Supported features
–– 802.11 b/g/n
–– 802.11 n (2.4 GHz), up to 150 Mbps
–– 802.11 e: QoS for wireless multimedia technology
–– WMM–PS, UAPSD
–– A–MPDU and A–MSDU aggregation –
–– Block ACK
–– Fragmentation and defragmentation
12.2
–– Automatic Beacon monitoring/scanning
–– 802.11 i security features: pre–authentication and TSN
–– Wi–Fi Protected Access (WPA)/WPA2/WPA2–
Enterprise/Wi–Fi Protected Setup (WPS)
–– Infrastructure BSS Station mode/SoftAP mode
–– Wi–Fi Direct (P2P), P2P Discovery, P2P Group Owner
mode and P2P Power Management
Specifications
Table 8 – WiFi specifications
Description
Min
Typ.
Max
Unit
Input Frequency
2412
–
2462
MHz
Output power of PA for 11b mode
20.61
21.51
22.25
dBm
Sensitivity
DSSS, 1Mbps
–
–
-98
dBm
CCK, 11 Mbps
–
–
-91
dBm
OFDM, 6 Mbps
–
–
-93
dBm
OFDM, 54 Mbps
–
–
-75
dBm
HT20, MCS0
–
–
-93
dBm
HT20, MCS7
–
–
-73
dBm
HT40, MCS0
–
–
-90
dBm
HT40, MCS7
–
–
-70
dBm
Adjacent channel rejection
OFDM, 6 Mbps
–
37
–
dB
OFDM, 54 Mbps
–
21
–
dB
HT20, MCS0
–
37
–
dB
HT20, MCS7
–
20
–
dB
Version 1.0
11
13.0
Bluetooth
13.1
Supported features
–– Compliant with Bluetooth v4.2 BR/EDR and BLE
specification
–– class–2 transmitter without external power amplifier
––
––
––
––
––
––
––
13.2
––
––
––
––
––
––
––
––
––
––
––
external power amplifier
Enhanced power control
+12 dBm transmitting power
NZIF receiver with –97 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)
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
Specification
13.2.1 Receiver – Basic Data Rate
Table 9 – Receiver (basic data rate) specifications
Parameter
Min
Typ.
Max
Unit
Sensitivity @0.1% BER
–
–94
–
dBm
Maximum received signal @0.1% BER
–
–
dBm
Co–channel C/I
–
+7
–
dB
F = F0 + 1 MHz
–
–
–6
dB
F = F0 – 1 MHz
–
–
–6
dB
F = F0 + 2 MHz
–
–
–25
dB
F = F0 – 2 MHz
–
–
–33
dB
F = F0 + 3 MHz
–
–
–25
dB
F = F0 – 3 MHz
–
–
–45
dB
30Mhz ~
2000MHz
–10
–
–
dBm
2000MHz ~
2400MHz
–27
–
–
dBm
2500MHz ~
3000MHz
–27
–
–
dBm
3000MHz ~
12.5GHz
–10
–
–
dBm
–36
–
–
dBm
Adjacent channel selectivity C/I
Out–of–band blocking performance
Intermodulation
Version 1.0
12
13.2.2 Receiver – Enhanced Data Rate
Table 10 – Receiver (basic data rate) specifications
Parameter
Min
Typ.
Max
Unit
Sensitivity @0.1% BER
–
–90
–
dBm
Maximum received signal @0.1% BER
–
–
dBm
Co–channel C/I
–
11
–
dB
F = F0 + 1 MHz
–
–7
–
dB
F = F0 – 1 MHz
–
–7
–
dB
F = F0 + 2 MHz
–
–25
–
dB
F = F0 – 2 MHz
–
–35
–
dB
F = F0 + 3 MHz
–
–25
–
dB
F = F0 – 3 MHz
–
–45
–
dB
–
–84
–
dBm
Maximum received signal @0.1% BER
–
–5
–
dBm
C/I c–channel
–
18
–
dB
F = F0 + 1 MHz
–
–
dB
F = F0 – 1 MHz
–
–
dB
F = F0 + 2 MHz
–
–25
–
dB
F = F0 – 2 MHz
–
–25
–
dB
F = F0 + 3 MHz
–
–25
–
dB
F = F0 – 3 MHz
–
–38
–
dB
π/4 DQPSK
Adjacent channel selectivity C/I
8DPSK
Sensitivity @0.1% BER
Adjacent channel selectivity C/I
Version 1.0
13
13.2.3 Receiver – Bluetooth LE
Table 11 – Receiver (BLE) specifications
Parameter
Min
Typ.
Max
Unit
Sensitivity @30.8% PER
–
–97
–
dBm
Maximum received signal @30.8% PER
–
–
dBm
Co–channel C/I
–
+10
–
dB
F = F0 + 1MHz
–
–5
–
dB
F = F0 – 1MHz
–
–5
–
dB
F = F0 + 2MHz
–
–25
–
dB
F = F0 – 2MHz
–
–35
–
dB
F = F0 + 3MHz
–
–35
–
dB
F = F0 – 3MHz
–
–45
–
dB
30MHz ~
2000MHz
–10
–
–
dB
2000MHz ~
2400MHz
–27
–
–
dBm
2500MHz ~
3000MHz
–27
–
–
dBm
3000MHz ~
12.5GHZ
–10
–
–
dBm
–36
–
–
dBm
Adjacent channel selectivity C/I
Out–of–band blocking performance
Intermodulation
Version 1.0
14
13.2.4 Transmitter – Basic Data Rate
Table 12 – Transmitter (basic data rate) specifications
Parameter
Min
RF transmit power
RF power control range
+20 dB bandwidth
Typ.
Max
Unit
–
2.11
–
dBm
0.21
2.11
3.29
dBm
–
0.9
–
MHz
F = F0 + 1 MHz
–
–24
–
dBm
F = F0 – 1 MHz
–
–16.1
–
dBm
F = F0 + 2 MHz
–
–40.8
–
dBm
F = F0 – 2 MHz
–
–35.6
–
dBm
F = F0 + 3 MHz
–
–45.7
–
dBm
F = F0 – 3 MHz
–
–40.2
–
dBm
F = F0 + >3 MHz
–
45.6
–
dBm
F = F0 – >3 MHz
–
44.6
–
dBm
Δf1avg
–
–
155
KHz
Δf2 max
133.7
Adjacent channel transmit power
KHz
Δf2 avg /Δf1avg
–
0.92
–
–
ICFT
–
–7
–
KHz
Drift rate
–
0.7
–
KHz/50Îźs
Drift (1 slot packet)
–
–
KHz
Drift (5 slot packet)
–
–
KHz
Version 1.0
15
13.2.5 Transmitter – Enhanced Data Rate
Table 13 – Transmitter (enhanced data rate) specifications
Parameter
Min
RF transmit power
–
RF power control range
Typ.
4.44
Max
Unit
–
dBm
2.31
–
5.93
dBm
π/4 DQPSK max w0
–
–0.72
–
KHz
π/4 DQPSK max wi
–
–6
–
KHz
π/4 DQPSK max |wi + w0|
–
–7.42
–
KHz
8DPSK max w0
–
0.7
–
KHz
8DPSK max wi
–
–9.6
–
KHz
8DPSK max |wi + w0|
π/4 DQPSK modulation accuracy
8 DPSK modulation accuracy
In–band spurious emissions
EDR differential phase coding
Version 1.0
–10
KHz
RMS DEVM
–
4.28
–
99% DEVM
–
–
30
Peak DEVM
–
13.3
–
RMS DEVM
–
5.8
–
99% DEVM
–
20
Peak DEVM
–
14
–
F = F0 + 1MHz
–
–34
–
dBm
F = F0 – 1MHz
–
–40.2
–
dBm
F = F0 + 2MHz
–
–34
–
dBm
F = F0 – 2MHz
–
–36
–
dBm
F = F0 + 3MHz
–
–38
–
dBm
F = F0 – 3MHz
–
–40.3
–
dBm
F = F0 Âą >3MHz
–
–
–41.5
dBm
–
100
–
16
13.2.6 Transmitter – Bluetooth LE
Table 14 – Transmitter (BLE) specifications
Parameter
Min
RF transmit power
–
RF power control range
Typ.
4.06
Max
Unit
–
dBm
3.39
–
4.31
dBm
F = F0 + 1MHz
–
–14.6
–
dBm
F = F0 – 1MHz
–
–12.7
–
dBm
F = F0 + 2MHz
–
–44.3
–
dBm
F = F0 – 2MHz
–
–38.7
–
dBm
F = F0 + 3MHz
–
–49.2
–
dBm
F = F0 – 3MHz
–
–44.7
–
dBm
F = F0 + >3MHz
–
–50
–
dBm
F = F0 – >3MHz
–
–50
–
dBm
Δf1avg
–
–
265
KHz
Δf2 max
247
–
–
KHz
Δf2 avg /Δf1avg
–
–0.92
–
–
ICFT
–
–10
–
KHz
Drift rate
–
0.7
–
KHz/50Îźs
Drift
–
–
KHz
Adjacent channel transmit power
14.0
LoRa
14.1
Supported features
Table 15 – Supported LoRa features
Part Number
Semtech SX1272
Frequency Range
LoRa Parameters
Spreading
factor
Bandwidth
902.3-914.9MHz
12
125 /250KHz
903-914.2 MHz
12
500 kHz
Effective
Bitrate
Sensitivity
0.24 – 37.5
kpbs
–117 to –137
dBm
The current micropython firmware supports LoRaWAN 1.0 acting as either a Class A or Class C node.
Version 1.0
17
14.2
Specifications
Table 16 – LoRa modem performance
Bandwidth (KHz)
Version 1.0
Spreading Factor
Nominal Rb (bps)
Sensitivity (dBm)
125
12
293
–137
250
12
588
–134
500
12
1172
–131
18
14.2
Specifications
Table 17 – LoRa electrical characteristics
Symbol
IDDR_L
IDDT_L
IDDT_H_L
BI_L
Description
Supply current in receiver
LoRa mode
Supply current in transmitter
mode
Supply current in transmitter
mode with an external
impedance transformer
Blocking Immunity,
FRF=903MHz CW interferer
Conditions
Min
Typ.
Max
Unit
LNABoost Off, BW=125KHz
–
9.7
–
mA
LNABoost Off, BW=250KHz
–
10.5
–
mA
LNABoost Off, BW=500KHz
–
12
–
mA
LNABoost On, BW=125KHz
–
10.8
–
mA
LNABoost On, BW=250KHz
–
11.6
–
mA
LNABoost On, BW=500KHz
–
13
–
mA
RFOP = 13dBm
–
28
–
mA
RFOP = 7dBm
–
18
–
mA
–
90
–
mA
Offset = Âą1 MHz
–
82.5
–
dB
Offset = Âą2 MHz
–
86.5
–
dB
Offset = Âą10 MHz
–
89
–
dB
–
–12.5
–
dBm
–
57
–
dBm
0.24
–
37.5
kbps
Using PA_BOOST pin
RFOP = 17 dBm
IIP3_L
3rd order input intercept
point, highest LNA gain,
FRF=903MHz, CW interferer
F1 = FRF + 1MHz
IIP2_L
2nd order input intercept
point, highest LNA gain,
FRF=903MHz, CW interferer
F1 = FRF + 20MHz
BR_L
Bit rate, Long–Range Mode
Version 1.0
F2 = FRF + 1.995MHz
F2 = FRF + 20MHz + Δf
From SF12, CR=4/5, BW=500 kHz to
SF12, CR=4/8, BW = 125kHz
19
14.2
Specifications
Table 17 – LoRa electrical characteristics
Symbol
Description
RFS_L125
RF sensitivity, Long–Range
Mode, highest LNA gain, LNA
boost, 125kHz bandwidth
using split Rx/Tx path
SF = 12
–
–137
–
dBm
RFS_L250
RF sensitivity, Long–Range
Mode, highest LNA gain, LNA
boost, 250kHz bandwidth
using split Rx/Tx path
SF = 12
–
–135
–
dBm
RFS_L500
Version 1.0
RF sensitivity, Long–Range
Mode, highest LNA gain, LNA
boost, 500kHz bandwidth
using split Rx/Tx path
Conditions
SF = 12
Min
–
Typ.
–129
Max
–
Unit
dBm
20
14.2
Specifications
Table 17 – LoRa electrical characteristics
Symbol
Description
CCR_LCW
CCR_LL
ACR_LCW
Co–channel rejection
Adjacent channel rejection
FRF = 903 MHz
IMR_LCW
Image rejection after
calibration
FERR_L
Maximum tolerated frequency
offset between transmitter
and receiver, no sensitivity
degradation
Version 1.0
Conditions
Min
Typ.
Max
Unit
SF = 12
–
19.5
–
dB
Interferer is a LoRa signal using the
same BW and SF. Pw = sensitivity
+ 3dB
–
–6
–
dB
SF = 12
–
72
–
dB
1% PER, Single CW tone = sensitivity
+ 3dB
–
66
–
dB
BW_L = 125kHz
–30
–
30
kHz
BW_L = 250kHz
–60
–
60
kHz
BW_L = 500kHz
–120
–
120
kHz
Interferer is 1.5*BW_L from the
wanted signal centre frequency 1%
PER, Single CW tone = Sensitivity
+ 3dB
21
14.2
Specifications
Table 18 – LoRa power consumption
Symbol
Description
IDDSL
Supply current in sleep mode
IDDIDLE
Supply current in idle mode
IDDST
Min
Typ.
Max
Unit
–
0.1
ÎźA
RC oscillator enabled
–
1.5
–
ÎźA
Supply current in standby
mode
Crystal oscillator enabled
–
1.4
1.6
mA
IDDFS
Supply current in synthesizer
mode
FSRx
–
4.5
–
mA
Supply current in receive
mode
LnaBoost Off
–
10.5
–
mA
IDDR
LnaBoost On
–
11.2
–
mA
RFOP=+ 20 dBm on PA_BOOST
–
125
–
mA
RFOP=+ 17 dBm on PA_BOOST
–
90
–
mA
RFOP=+ 13 dBm on RFO pin
–
28
–
mA
RFOP=+ 7 dBm on RFO pin
–
18
–
mA
Supply current in transmit
mode with impedance
matching
IDDT
15.0
Sigfox
15.1
Frequencies
Conditions
Table 19 – Supported sigfox regions
Region
RCZ2 (US)
Version 1.0
Uplink Frequency (MHz)
902.216
Downlink Frequency (MHz)
904.666
22
15.2
Specifications
Table 20 – Sigfox modem performance
Parameter
Data Rate
TX Power
Min
Typ.
Max
Unit
RCZ2
–
600
–
bps
RCZ2
–
+20
–
dBm
–
–126
–
dBm
RX Sensitivity
Current Draw
Version 1.0
RCZ2 TX
–
125
–
mA
RCZ2 RX
–
11.2
–
mA
23
16.0
16.1
LTE CAT–M1
Supported features
–
– 3GPP release 13 LTE Advanced Pro
–– Reduced TX power class option
–– Extended DRX (eDRX) and PSM features for long
sleep duration use cases
– Supports
narrowband LTE UE categories M1 –
–
Integrated
baseband, RF, RAM memory and
–
power
– management
16.2
Specifications
Table 21 – Supported LTE modes
Parameter
Data rate
Min
Typ.
Max
Unit
LTE Cat M1 in 1.4 Mhz, HD–FDD – DL
–
300
–
kbps
LTE Cat M1 in 1.4 Mhz, HD–FDD – UP
–
375
–
kbps
16.2.1 Supported LTE bands
Table 22 – Supported LTE bands
Bands
TX Frequencies
RX Frequencies
1710-1755MHz
2110 to 2155 MHz
Band 12
699-716MHz
729 to 746 MHz
Band 13
777-787MHz
746-756 MHz
Band 4
16.3
SIM Card requirements
Table 23 – SIM card specifications
Parameter
Min.
Typ.
Max
Unit
Form factor
–
Nano–SIM
–
–
Variant
–
USIM
–
–
Supply Voltage
–
1.8
–
16.4
Certified carriers
Table 24 –Certified carriers
Carrier
Country
Network
Verizon US
United States
LTE CAT–M1
Version 1.0
24
17.0
6LoWPAN
P ycom is currently working on adding 6LoWPAN support
to this module and plan to release a new firmware with
this functionality in Q2 2018.
18.0
Electrical Characteristics
18.1
Absolute maximum ratings
Table 25 – Absolute maximum ratings
Parameter
Symbol
Min
Typ.
Max
Unit
Supply Input Voltage
VIN
3.5
–
5.5
Supply Output Current
I OUT
–
–
1.2
Supply Output Voltage
V3V3
–
3.3
–
Storage Temperature
TSTR
–
–
–
°C
Operating Temperature
TOPR
–40
–
85
°C
Moisture Sensitivity Level
MSL
–
–
–
Symbol
Min
Typ.
Max
Unit
Input low voltage
VIL
–0.3
–
0.25×V3V3
Input high voltage
VIH
0.75×V3V3
–
V3V3 +0.3
Max Input sink current
I SINK
–
12
mA
Input leakage current
I IL
–
–
50
nA
Input pin capacitance
C pin
–
–
pF
Output low voltage
VOL
0.1×V3V3
–
–
Output high voltage
VOH
0.8×V3V3
–
–
I SOURCE
–
12
mA
18.2
Input/Output characteristics
Table 26 – Input/Output characteristics
Parameter
Max Output source current
Version 1.0
25
19.0
Minimum Recommended Circuit
Figure 3 – Minimum required circuit
Version 1.0
26
20.0
Mechanical Specifications
2.54
1.02
P13
P14
P15
P16
P17
P18
P19
P20
P21
P22
P23
3V3
GND
VIN
10
17.78
20
P12
P11
P10
P9
P8
MISO
MOSI
P4
CLK
P3
P2
P1
P0
RST
55
9.72
12.25
Figure 4 – Mechanical drawing (top down view) – Units: mm
55
35.3
1.2
9.9
6.5
4.1
Figure 5 – Mechanical drawing (side view) – Units: mm
21.0
Recommended Land Pattern
2.54
Antenna
KEEP OUT
1.02
10
17.78
20
9.72
55
12.25
Figure 6 – Recommended land pattern (through hole) – Units: mm
Version 1.0
27
22.0 Soldering Profile
This
device is not recommended for reflow soldering.
The plastic of the pin headers will melt, instead please
hand solder the module or use sockets.
23.0
Ordering Information
Table 27 – Ordering information
Product EAN
Description
0700461341604
FiPy 1.0
0700461341697
IP67 Antenna Pigtail
Bundle
Contents
FiPy Multi–Pack
1x FiPy
1x Expansion Board or
Pysense or Pytrack
For more product accessories like expansion board or cases visit our website: http://www.pycom.io
24.0
Packaging
Figure 7 – Mechanical drawing of packaging – Units: mm
The module will come inside a reusable anti–static bag. If the module has headers it
will also be inserted into anti–static foam. Total weight inc. packaging: 33g
Version 1.0
28
;7;u-Ѵoll†mb1-ঞomollbvvbomm|;u=;u;m1;
Statement
$_bv7;ˆb1;1olrѴb;v‰b|_-u|ƐƔo=|_; !†Ѵ;vĺr;u-ঞombv
v†0f;1||o|_;=oѴѴo‰bm]|‰o1om7bঞomvĹ
ŐƐő$_bv7;ˆb1;l-‹mo|1-†v;_-ul=†Ѵbm|;u=;u;m1;ĺ
(2) This device must accept any interference received, including
bm|;u=;u;m1;|_-|l-‹1-†v;†m7;vbu;7or;u-ঞomĺ
&$Ĺ_-m];voulo7bC1-ঞomvmo|;Šru;vvѴ‹-rruoˆ;70‹|_; party responsible
for compliance could void the user's authority to or;u-|;|_;;t†brl;m|ĺ
NOTE: This equipment has been tested and found to comply
with the limits for a Class B digital device, pursuant to Part 15 of
|_; !†Ѵ;vĺ$_;v;Ѵblb|v-u;7;vb]m;7|oruoˆb7;u;-vom-0Ѵ;
ruo|;1ঞom-]-bmv|_-ul=†Ѵbm|;u=;u;1;bm-u;vb7;mঞ-Ѵbmv|-ѴѴ-ঞomĺ This equipment
generates uses and can radiate radio frequency energy and, if not installed and used in
accordance with |_;bmv|u†1ঞomvķl-‹1-†v;_-ul=†Ѵbm|;u=;u;m1;|ou-7bo
1oll†mb1-ঞomvĺo‰;ˆ;uķ|_;u;bvmo]†-u-m|;;|_-|bm|;u=;u;m1;
‰bѴѴmo|o11†ubm-r-uঞ1†Ѵ-ubmv|-ѴѴ-ঞomĺ=|_bv;t†brl;m|7o;v
1-†v;_-ul=†Ѵbm|;u=;u;m1;|ou-7boou|;Ѵ;ˆbvbomu;1;rঞomķ‰_b1_
1-m0;7;|;ulbm;70‹|†umbm]|_;;t†brl;m|o@-m7omķ|_;†v;ubv encouraged to try
to correct the interference by one or more of the following me asures:
Ŋ!;oub;m|ouu;Ѵo1-|; |_;u;1;bˆbm]-m|;mm-ĺ
Ŋm1u;-v;|_;v;r-u-ঞom0;|‰;;m|_;;t†brl;m|-m7u;1;bˆ;uĺ
Ŋomm;1||_;;t†brl;m|bm|o-mo†|Ѵ;|om-1bu1†b|7b@;u;m|=uol
|_-||o‰_b1_|_;u;1;bˆ;ubv1omm;1|;7ĺ
Ŋomv†Ѵ||_;7;-Ѵ;uou-m;Šr;ub;m1;7u-7boņ$(|;1_mb1b-m=ou_;Ѵrĺ
RF Warning Statement
This equipment complies with FCC radiation exposure
limits set forth for an uncontrolled environment .
This equipment should be installed and operated with
minimum distance 20cm between the radiator& your body.
This device is intended only for OEM integrators
†m7;u|_;=oѴѴo‰bm]1om7bঞomvĹ
1) The antenna must be installed such that 20 cm is maintained
between the antenna and users, and
Ƒő $_;|u-mvlb‚;ulo7†Ѵ;l-‹mo|0;1oŊѴo1-|;7‰b|_-m‹o|_;u
|u-mvlb‚;uou-m|;mm-ĺ
vѴom]-v|‰o1om7bঞomv-0oˆ;-u;l;|ķ=†u|_;u|u-mvlb‚;u
|;v|‰bѴѴmo|0;u;t†bu;7ĺo‰;ˆ;uķ|_; bm|;]u-|oubvvঞѴѴ
u;vromvb0Ѵ;=ou|;vঞm]|_;bu;m7Ŋruo7†1|=ou-m‹-77bঞom-Ѵ
1olrѴb-m1;u;t†bu;l;m|vu;t†bu;7‰b|_|_bvlo7†Ѵ;bmv|-ѴѴ;7ĺ$o
;mv†u;1olrѴb-m1;‰b|_-ѴѴmomŊ|u-mvlb‚;u=†m1ঞomv|_;_ov|
manufacturer is responsible for ensuring compliance with the
lo7†Ѵ;Ővőbmv|-ѴѴ;7-m7=†ѴѴ‹or;u-ঞom-Ѵĺ ou;Š-lrѴ;ķb=-_ov|‰-v
ru;ˆbo†vѴ‹-†|_oubŒ;7-v-m†mbm|;mঞom-Ѵu-7b-|ou†m7;u|_;
;1Ѵ-u-ঞomo=om=oulb|‹ruo1;7†u;‰b|_o†|-|u-mvlb‚;u1;uঞC;7 module and a
module is added, the host manufacturer is responsible
=ou;mv†ubm]|_-||_;-[;u|_;lo7†Ѵ;bvbmv|-ѴѴ;7-m7or;u-ঞom-Ѵ
|_;_ov|1omঞm†;v|o0;1olrѴb-m|‰b|_|_;-u|ƐƔ†mbm|;mঞom-Ѵ
u-7b-|ouu;t†bu;l;m|vĺ $_;lo7†Ѵ;bvѴblb|;7|o bmv|-ѴѴ-ঞom+ĺ
$_;lo7†Ѵ;bvѴblb|;7|obmv|-ѴѴ-ঞombmlo0bѴ;ouCŠ;7-rrѴb1-ঞomĺ We hereby
acknowledge our responsibility to provide guidance to the host manufacturer in the
event that they require assistance for
;mv†ubm]1olrѴb-m1;‰b|_|_;-u|ƐƔ"†0r-u|u;t†bu;l;m|vĺ
!$$$ Ĺm|_;;ˆ;m||_-||_;v;1om7bঞomv1-mmo|
0;l;|Ő=ou;Š-lrѴ;1;u|-bmѴ-r|or1omC]†u-ঞomvou1oŊѴo1-ঞom
‰b|_-mo|_;u|u-mvlb‚;uőķ|_;m|_; -†|_oubŒ-ঞombvmo longer considered valid and
the FCC ID cannot be used on the
Cm-Ѵruo7†1|ĺm|_;v;1bu1†lv|-m1;vķ|_; bm|;]u-|ou‰bѴѴ
0;u;vromvb0Ѵ;=ouu;;ˆ-Ѵ†-ঞm]|_;;m7ruo7†1|Őbm1Ѵ†7bm]|_;
|u-mvlb‚;uő-m7o0|-bmbm]-v;r-u-|; -†|_oubŒ-ঞomĺ
End Product Labeling
The outside of final products that contains this
module device must display a label referring to theenclosed module. This
exterior label can use wording such as: "Contains Transmitter Module FCC
ID:2AJMTFIPY01R,&22263-FIPY01R or “Contains FCC ID:2AJMTFIPY01R,&22263FIPY01R , Any similar wording that expresses the same meaning may be used.
-m†-Ѵm=oul-ঞom|o|_; m7&v;u
$_; bm|;]u-|ou_-v|o0;-‰-u;mo||oruoˆb7;bm=oul-ঞom|o
|_;;m7†v;uu;]-u7bm]_o‰|obmv|-ѴѴouu;loˆ;|_bv! lo7†Ѵ;bm
|_;†v;uĽvl-m†-Ѵo=|_;;m7ruo7†1|‰_b1_bm|;]u-|;v|_bvlo7†Ѵ;ĺ In the user manual of
the end product, the end user has to be informed that the equipment complies with FCC
radio-frequency ;Šrov†u;]†b7;Ѵbm;vv;|=ou|_=ou-m†m1om|uoѴѴ;7;mˆbuoml;m|ĺ
The end user has to also be informed that any changes or
lo7bC1-ঞomvmo|;Šru;vvѴ‹-rruoˆ;70‹|_;l-m†=-1|†u;u1o†Ѵ7ˆob7
|_;†v;uŝv-†|_oub|‹|oor;u-|;|_bv;t†brl;m|ĺ
The end user manual shall include all required regulatory
bm=oul-ঞomņ‰-umbm]-vv_o‰bm|_bvl-m†-Ѵĺ
ISED RSS Warning/ISED RF Exposure Statement:
ISED RSS Warning:
This device complies with Innovation, Science and Economic Development
Canada licence-exempt RSS standard(s). Operation is subject to the following two
conditions: (1) this device may not cause interference, and (2) this device must
accept any interference, including interference that may cause undesired operation
of the device.
Le prĂŠsent appareil est conforme aux CNR d'ISED applicables aux appareils radio
exempts de licence. L'exploitation est autorisĂŠe aux deux conditions suivantes:
(1) l'appareil ne doit pas produire de brouillage, et
(2) l'utilisateur de l'appareil doit accepter tout brouillage radioĂŠlectrique subi, mĂŞme
si le brouillage est susceptible d'en compromettre le fonctionnement.
ISED RF exposure statement:
This equipment complies with ISED radiation exposure limits set forth for an
uncontrolled environment. This equipment should be installed and operated with
minimum distance 20cm between the radiator& your body.This transmitter must not
be co-located or operating in conjunction with any other antenna or transmitter.
Le rayonnement de la classe b repecte ISED fixaient un environnement non
contrôlés.Installation et mise en œuvre de ce matériel devrait avec échangeur
distance minimale entre 20 cm ton corps.Lanceurs ou ne peuvent pas coexister
cette antenne ou capteurs avec d’autres.
6LQJOH0RGXODU$SSURYDO2XWSXWSRZHULVFRQGXFWHG7KLVGHYLFHLVWREHXVHGLQPRELOHRUIL[HG
DSSOLFDWLRQVRQO\$QWHQQDJDLQLQFOXGLQJFDEOHORVVPXVWQRWH[FHHG7 G%L@ FDD (Band 4),
9.81 @ FDD (Band 12) and 10.57 @ FDD (Band 13) IRUWKHSXUSRVHRIVDWLVI\LQJWKHUHTXLUHPHQWVRI&)5
 7KHDQWHQQD V XVHGIRUWKLVWUDQVPLWWHUPXVWEHLQVWDOOHGWRSURYLGHDVHSDUDWLRQ
GLVWDQFHRIDWOHDVWFPIURPDOOSHUVRQVDQGPXVWQRWEHFRORFDWHGRURSHUDWHGLQFRQMXQFWLRQZLWKDQ\
DQWHQQDRUWUDQVPLWWHUH[FHSWLQDFFRUGDQFHZLWK)&&PXOWLWUDQVPLWWHUHYDOXDWLRQSURFHGXUH&RPSOLDQFH
RIWKLVGHYLFHLQDOOILQDOSURGXFWFRQILJXUDWLRQVLVWKHUHVSRQVLELOLW\RIWKH*UDQWHH,QVWDOODWLRQRIWKLV
GHYLFHLQWRVSHFLILFILQDOSURGXFWVPD\UHTXLUHWKHVXEPLVVLRQRID&ODVV,,SHUPLVVLYHFKDQJHDSSOLFDWLRQ
FRQWDLQLQJGDWDSHUWLQHQWWR5)([SRVXUHVSXULRXVHPLVVLRQV(53(,53DQG
KRVWPRGXOHDXWKHQWLFDWLRQRUQHZDSSOLFDWLRQLIDSSURSULDWH
For IC , to meet RF exposure & ERP/ERIP, the maximum net gain of antennas allowed are 5.96 dBi @
FDD (Band 4), 6.64 @ FDD (Band 12) and 7.46 @ FDD (Band 13). The antenna(s) used for this
transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must
not be co-located or operating in conjunction with any other antenna or transmitter.

---

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