PE IoT Engine Datasheet PE IoT Engine Datasheet Document No. [DOC-DAT-0023-04] Date of last revision [04.03.
PE IoT Engine Datasheet Table of contents 1. List of Acronyms ......................................................................................................................................................... 3 2. Product Description ................................................................................................................................................... 4 3. Architecture ...................................................................................................
PE IoT Engine Datasheet 1. List of Acronyms Acronym Description AES Advanced Encryption Standard CMS Central Management System GFSK Gaussian Frequency Shift Key GPS Global Positioning System HDLC High-Level Data Link Control IPv6/6LoWPAN IPv6 over Low-Power Wireless Personal Area Networks LED Light Emission Diode MCU Microcontroller Unit NA Not Applicable PCB Printed Circuit Board PE Paradox Engineering RMS Root Mean Square RTC Real Time Clock Document No.
PE IoT Engine Datasheet 2. Product Description The PE IoT Engine is a Sub 1-GHz IPv6/6LoWPAN hardware radio communication module, as shown in Figure 1 below. The PE IoT Engine is used to build interoperable, fully customized solutions and applications for the Internet of Things (IoT) and Smart Cities.
PE IoT Engine Datasheet IPv6 6LoWPAN Wireless Mesh Network (Encrypted) Figure 2: The PE IoT Engine and Other PE Technologies Operating in a Smart City Application As an open and interoperable platform, the PE IoT Engine adopts the uCIFI standard for Smart City applications. This provides city managers the ability to use an open and standardized data model for sensor data traversing mesh network. The uCIFI standard also ensures that city managers have a well-defined interface to access their data.
PE IoT Engine Datasheet 3. Architecture The PE IoT Engine is a communication module that allows custom, 3rd party IoT applications to have full access to a private, encrypted, self-configuring, self-healing, IPv6/6LoWPAN, wireless mesh network which can easily be deployed in city and urban environments. One of the core objectives of the PE IoT Engine is to provide hardware engineers a single module that abstracts the networking, mesh topology, IPv6 stack, and Sub 1-GHz radio protocols.
PE IoT Engine Datasheet A high-level block diagram of the PE IoT Engine is pictured in Figure 4, located below. Radio External Connector (J1, J2) UFL Antenna Connector GPIO UART SWD I2C USB 2 ADC 5.0 or 3.3 VDC Micro USB Port MCU (80 MHz) Power Supply Flash Memory (1 MB) USB 2 Figure 4: The PE IoT Engine High Level Block Diagram Document No. [DOC-DAT-0023-04] Date of last revision [04.03.
PE IoT Engine Datasheet 4.
PE IoT Engine Datasheet 5. Technical specifications Table 1 – Absolute Maximum Ratings Symbol Item Unit Min. Typ. Max. VDD_2V 2 V Operating Supply Voltage VDC 1.9(1) 2 2.2 VDD_3.3V 3.3V Operating Supply Voltage VDC 2.7 3.3 3.5 VDD_5V 5V Operating Supply Voltage VDC 3.6 5 6 VANALOG IO Pin Voltage VDC 0 - VREF +0.3V VDIGITAL IO Pin Voltage Extended Range -0.3 - VDD +0.3V (5V tolerant UART1) VBAT External Power backup for RTC VDC 1.55 3.3 3.
PE IoT Engine Datasheet Table 3 – Power Consumption Symbol Item Unit Min. Typ. Max. IDD Transmission @11 dBm mA - 31 - IDD Reception mA - 28 - IDD Sleep Mode uA - - - Table 4 – Sub 1-GHz Radio Narrowband Interface Item Unit Description Radio protocol - 802.15.
PE IoT Engine Datasheet Table 5 – Sub 1-GHz Radio Narrowband Country Parameters Country Frequency band (MHz)1 Frequency Hopping / Single channel US 902.42 – 927.58 Frequency Hopping Channels Ch. Spacing (kHz) TX power (dBm) 75 340 ≤ 14 Comments 3 ch., 200 kHz spacing (868.1, 868.3 and 868.5 MHz) EU 868.0 – 868.6 Single channel - - ≤ 14 EU 869.525 (band P) Single channel - - ≤ 14 1 ch., (869.525 MHz) 13 ch., 200 kHz spacing (922.3 MHz ch. cannot be used by ARIB STDT108 tab.
PE IoT Engine Datasheet 6. Dimensions Mechanical dimensions of PE IoT Engine are pictured in Figure 5 below. Figure 5: Dimension Views of the PE IoT Engine in Millimeters Document No. [DOC-DAT-0023-04] Date of last revision [04.03.
PE IoT Engine Datasheet 7. Connectors and Switches Table 7 – List of Connectors Name Description J1 2x10 pins male connector, 2.54 mm pitch, mounted on the bottom side J2 2x10 pins male connector, 2.54 mm pitch, mounted on the bottom side J3 Micro USB female connector J18 UFL female connector for RF antenna J2 Header J1 Header J3 Header Figure 6: Bottom View with J1, J2, and J3 Headers Document No. [DOC-DAT-0023-04] Date of last revision [04.03.
PE IoT Engine Datasheet Table 8 – List of Switches Name Description SW1 Soft RESET – Push the button to RESET the device SW2 BOOT0 – Move the switch to the right to activate the bootloader SW3 V_ADC – Move the switch to the right to supply external power to the ADC. Move the switch to the left to enable VCC to supply power to the ADC.
PE IoT Engine Datasheet Table 9 – List of LEDs Name LD1 Description This LED is always ON if the PE IoT Engine is powered with 5 VDC or USB power. In other power configurations, the LED is OFF to save power. LD1 LED Figure 8: Top View LED LD1 Document No. [DOC-DAT-0023-04] Date of last revision [04.03.
PE IoT Engine Datasheet Table 10 – Pinout of J1 Connector PIN Name Type Description Reference 1 V_BAT Power Optional external backup battery VBAT 2 GPIO_14 I/O General purpose input/output VDIGITAL 3 I2C SDL I/O I2C data VDIGITAL 4 GPIO_9 I/O General purpose input/output VDIGITAL 5 GPIO_11 I/O General purpose input/output VDIGITAL 6 RXD O Serial Interface for debugging VDIGITAL 7 GPIO_12 I/O General purpose input/output VDIGITAL 8 TXD I Serial Interface for receivi
PE IoT Engine Datasheet Table 11 – Pinout of J2 Connector PIN Name Type Description Reference 1 +5V_DB Power 5V Input Voltage from external source VDD_5V 2 +3.3V_DB Power 3.3V Input Voltage from external source VDD_3.
PE IoT Engine Datasheet 8. Requirements of KDB 996369 D03 – FCC certifications 8.1 Section 2.2 List of applicable FCC rules The following standard apply to the module: - 8.2 47 CFR FCC part 15.247 , subpart C (radio) 47 CFR FCC 47 part 2 - §2.1093 (maximum permissible exposure) KDB 558074 D01 ANSI C63.10:2013 Title 47 Part 1 Subpart I § 1.1310 Title 47 Part 2 Subpart J § 2.1091 ANSI C63.4:2014 Section 2.
PE IoT Engine Datasheet 8.5 Section 2.6 RF exposure considerations The following tables summarize the results of the calculations carried out assuming no co-location or operation in conjunction with any other antenna or transmitter. It is also indicated the minimum distance to keep between antennas and the public: Document No. [DOC-DAT-0023-04] Date of last revision [04.03.
PE IoT Engine Datasheet Notice Changes or modifications made to this equipment not expressly approved by Paradox Engineering may void the user’s authority to operate this equipment. Radiofrequency radiation exposure information This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance of 5mm between the radiator and your body.
PE IoT Engine Datasheet 8.8 Section 2.9 Information on test modes and additional testing requirements See test report FCCTR_178784_0 and MPETR_178785_0. Document No. [DOC-DAT-0023-04] Date of last revision [04.03.
PE IoT Engine Datasheet 8.9 Section 2.10 Additional testing, Part 15 Subpart B disclaimer Please refer to test report FCCTR_178784_0 and MPETR_178785_0. The module is FCC Part 15 Subpart B compliant and the modular transmitter is only FCC authorized for the specific rule parts listed on the grant. The host product manufacturer is responsible for compliance to any other FCC rules that apply to the host not covered by the modular transmitter grant of certification.
PE IoT Engine Datasheet 9. Maximum Permissible Exposure (MPE) Limits The PE IoT Engine is compliant to Maximum Permissible Exposure (MPE) limits. 9.1 US – United States See section 8.5 Section 2.6 RF exposure considerations. 9.2 EU – Europe Table 12 – MPE Limits 9.2.1 Maximum Permissible Exposure (MPE) Limits Document No. [DOC-DAT-0023-04] Date of last revision [04.03.
PE IoT Engine Datasheet Document No. [DOC-DAT-0023-04] Date of last revision [04.03.
PE IoT Engine Datasheet 9.2.2 EU Declaration of Conformity Paradox Engineering declares that PE IoT Engine is compliant within the 2014/53/EU directive. The full Declaration of Conformity is available at the following link: hiips://www.pdxeng.ch/certification/t6Ybbh8ojS.pdf Document No. [DOC-DAT-0023-04] Date of last revision [04.03.
PE IoT Engine Datasheet 10. Certifications 10.1 US – United States Table 13 – Reference Standards of the United States Standard FCC 47 CFR part 15 10.
PE IoT Engine Datasheet 10.3 Symbols and Approval Marks Table 16 – Approval Marks Approval Issued by Certificate No. Declaration of Conformity: In progress In progress FCC ID: 2AKPQNDWM005 Table 17 – Symbols Approval Description RoHS compliant, refer to [OD_1] WEEE Directive compliant, refer to [OD_1] Document No. [DOC-DAT-0023-04] Date of last revision [04.03.
PE IoT Engine Datasheet 11. Ordering Codes Table 18 – Ordering Codes Model Name Country code Part No. NDWM005 US US - United States PRD-CMD-0002 NDWM005 EU EU - Europe PRD-CMD-0001 NDWM005 CL CL – Chile TBD NDWM005 JP JP – Japan TBD NDWM005 TH TH – Thailand TBD NDWM005 KH KH – Korea TBD NDWM005 PH PH – Philippines TBD Document No. [DOC-DAT-0023-04] Date of last revision [04.03.
PE IoT Engine Datasheet 12. Related Documents Table 19 – Related Documents Item Document Number Document Title/Description [PD_1] DOC-SW-ETC-2011 PE IoT Engine HDLC Interface Guide [PD_2] DOC-SW-AN-2017 LwM2M Reference Application [OD_1] EM10507 MinebeaMitsumi Group Green Procurement Standard Document No. [DOC-DAT-0023-04] Date of last revision [04.03.
PE IoT Engine Datasheet 13. Revision History Revision Document No. 00 DOC-DAT-0023-00 01 DOC-DAT-0023-01 02 DOC-DAT-0023-02 03 DOC-DAT-0023-03 04 DOC-DAT-0023-04 Created by Verified by Approved by Date Description M. Semmoloni R. Palmiero G. Galabro’ B. Hopkins R. Palmiero M. Parnisari 21.06.2019 First document release. 12.11.2019 Updated all sections for PE IoT Engine Changed USB mini to micro Updated J1 and J2 headers for serial use B. Hopkins R. Palmiero M. Parnisari B. Hopkins R.
