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JN5179 MikroBUS Module Datasheet

JN5179 MikroBUS Module Datasheet | Rev 1.0 | 26-Feb-20

Volansys-Confidential Page

Datasheet

JN5179 MikroBUS Module

Revision: 1.0

Date: 26-Feb-2020

Volansys Technologies Private Limited

Block A 7th Floor, Safal Profitaire, Corporate Road,

Prahladnagar, Ahmedabad 380015, India

www.volansys.com

Phone: 91-79-4004-1994

Email: info@volansys.com

Confidentiality Notice

This document is authored by Volansys and is Volansys’ intellectual property, including the copyrights in all countries in the world. This

document is provided under a license to use only with all other rights, including ownership rights, being retained by Volansys. This file may

not be distributed, copied, or reproduced in any manner, electronic or otherwise, without the express written consent of Volansys.

Summary of content (36 pages)

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JN5179 MikroBUS Module Datasheet Datasheet JN5179 MikroBUS Module Revision: 1.0 Date: 26-Feb-2020 Volansys Technologies Private Limited Block A 7th Floor, Safal Profitaire, Corporate Road, Prahladnagar, Ahmedabad 380015, India www.volansys.com Phone: 91-79-4004-1994 Email: info@volansys.com Confidentiality Notice Copyright © 2019Volansys – All rights reserved. This document is authored by Volansys and is Volansys’ intellectual property, including the copyrights in all countries in the world.
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TABLE OF CONTENTS JN5179 MikroBUS Module Datasheet 1 INTRODUCTION.....................................................................................................................................................6 1.1 PURPOSE........................................................................................................................................................... 6 1.2 SCOPE....................................................................................................................
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LIST OF FIGURES JN5179 MikroBUS Module Datasheet FIGURE 2-1 : JN5179 MIKROBUS MODULE BLOCK DIAGRAM............................................................................................ 8 FIGURE 2-2 :JN5179 MIKROBUS MODULE PINS.............................................................................................................10 FIGURE 2-3 : JN5179-001-M1X SMT MODULE...........................................................................................................
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LIST OF TABLES JN5179 MikroBUS Module Datasheet TABLE 1-1 : ACRONYMS & ABBREVIATIONS.......................................................................................................................6 TABLE 1-2 : REFERENCES................................................................................................................................................6 TABLE 2-1 : MODULE OPTIONS...............................................................................................................
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JN5179 MikroBUS Module Datasheet Revision History Revision Date 1.0 26-02-2020 Details of change Initial Draft JN5179 MikroBUS Module Datasheet | Rev 1.
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1 JN5179 MikroBUS Module Datasheet INTRODUCTION 1.1 Purpose The purpose of this document is to provide introduction to key features, architecture and other relevant electrical and mechanical characteristics of JN5179 MikroBUS module. 1.2 Scope The scope of this document is to explain in detail the design of the JN5179 MikroBUS module. This document is henceforth, to be used as a direct reference by end customers intending to use this product as per their use case. 1.
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JN5179 MikroBUS Module Datasheet 1.6 Copyright Information The information contained in this document is the proprietary information of Volansys Technology. The contents are confidential and any disclosure to persons other than the officers, employees, agents or subcontractors of the owner or licensee of this document, without the prior written consent of Volansys, is strictly prohibited.
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JN5179 MikroBUS Module Datasheet 2 PRODUCT OVERVIEW Volansys’ JN5179 MikroBUS module is based on NXP’s JN5179-001-M1x family of modules which is a range of ultra-low power, high performance modules targeted at IEEE 802.15.4. ZigBee home automation networking applications. These modules are MikroBUS compliant, enabling users to realize products with minimum time to market.
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JN5179 MikroBUS Module Datasheet 2.1 Module Features  2.4 GHz IEEE 802.15.4, ZigBee Smart Energy and Home Automation compatible.  JN5179-001-M10  Integrated printed antenna  TX power 8.5 dBm/10 dBm  Receiver sensitivity -96 dBm  TX current 24 mA @ 10 dBm  TX current 21.2 mA @ 8.5 dBm  RX current 14.3 mA @ maximum input level -2 dBm  JN5179-001-M13  U.Fl connector for external antenna  TX power 8.5 dBm/10 dBm  Receiver sensitivity -96 dBm  TX current 24 mA @ 10 dBm  TX current 21.
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JN5179 MikroBUS Module Datasheet 2.3 Module Pin Details The pin detail for the JN5179 MikroBUS module is as described below: Module Pin Name Pin Pin Module Pin Name J1.1 TDI - NP NP - TDO J2.1 J1.2 TCK - NP NP - TMS J2.2 J1.3 AN 1 AN PWM 16 PWM J2.3 J1.4 RST 2 RST INT 15 INT J2.4 J1.5 CS 3 CS RX 14 TX J2.5 J1.6 SCK 4 SCK TX 13 RX J2.6 J1.7 SDO 5 MISO SCL 12 SCL J2.7 J1.8 SDI 6 MOSI SDA 11 SDA J2.8 J1.9 3V3 7 3.3V 5V 10 NC J2.
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JN5179 MikroBUS Module Datasheet 2.4 Module Pin to Header Connections The table below shows which pins of the JN5179-001-M1x module are connected to the MikroBUS compatible headers. Sr. MikroBUS Header Pin JN5179-001-M1x Module Pin 1 J1.1 DIO7 2 J1.2 DIO17 3 J1.3 ADC0 4 J1.4 RESET_N 5 J1.5 DIO6 6 J1.6 DO0 7 J1.7 DO1 8 J1.8 DIO7 9 J1.9 VCC 10 J1.10 GND 11 J2.1 DIO15 12 J2.2 DIO11 13 J2.3 DIO13 14 J2.4 DIO14 15 J2.5 DIO9 16 J2.6 DIO10 17 J2.
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JN5179 MikroBUS Module Datasheet The figure below shows pin description of a JN5179-001-N1X SMT module from NXP. This image, along with the information from table 1-3 can be used to plan the muxing of IOs if required by the end user. Figure 2-3: JN5179-001-M1X SMT Module JN5179 MikroBUS Module Datasheet | Rev 1.
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JN5179 MikroBUS Module Datasheet 2.5 IO - Alternate Functions The table below describes alternate functionalities of the JN5179-001-M1x module IOs spread out on the MikroBUS headers.
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JN5179 MikroBUS Module Datasheet Pin DIO6 Pin Type Description Input/Output DIO6 - digital input/output 6 SPISEL0 - SPI-bus master select output 0 CTS0 - UART 0 clear to send input RXD1 - UART 1 receive data input JTAG_TCK - JTAG TCK input SWCK - Serial Wire Debugger Clock input SPISCLK - SPI-bus slave clock input TIM1CAP - Timer1 capture input DIO7 Input/Output DIO7 - digital input/output 7 SPIMOSI - SPI-bus master data output JTAG_TDI - JTAG TDI data input SPISEL2 - SPI-bus master select output 2 SP
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JN5179 MikroBUS Module Datasheet Pin DIO11 Pin Type Description Input/Output DIO11 - digital input/output 11 JTAG_TMS - JTAG TMS input SWD — serial wire debugger input RTS0 - UART 0 request to send output TXD1 - UART 1 transmit data output SPICLK - SPI-bus master clock output SPISMOSI - SPI-bus slave data input TIM1OUT - Timer1 output TRACED0 - ARM trace data0 output SWD - serial wire debugger input DIO13 Input/Output DIO13 - digital input/output 13 PWM2 - PWM2 output RXD0 - UART 0 receive data input
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JN5179 MikroBUS Module Datasheet Pin DIO15 Pin Type Description Input/Output SPISEL1 - SPI-bus master select output 1 TIM0CK_GT - Timer0 - clock gate input TRACESWV - ARM trace Serial Wire Viewer output SPISSEL - SPI-bus slave select input DIO17 Input/Output DIO17 - digital input/output 17 JTAG_TCK - JTAG TCK input SWCK - Serial Wire Debugger Clock input SPISEL0 - SPI-bus master select output 0 TIM1CAP - Timer1 capture input COMP1P - comparator plus input SPISMISO - SPI-bus slave data output ADC0 In
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JN5179 MikroBUS Module Datasheet Figure 2-4:JN5179-001-M10 Module 2.6.2 JN5179-001-M13 JN5179 MikroBUS module that comes with JN5179-001-M13 module is a standard power module with u.FL connector to connect external antennas. Figure 2-5:JN5179-001-M13 Module JN5179 MikroBUS Module Datasheet | Rev 1.
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JN5179 MikroBUS Module Datasheet 2.6.3 JN5179-001-M16 JN5179 MikroBUS module that comes with JN5179-001-M13 module is a high-power module with printed antenna and u.FL connector for external antennas. Figure 2-6:JN5179-001-M16 Module 2.7 Reset Pin 2 of the header “J1” (Pin 2 or RST in MikroBUS) is to be used for resetting the module externally. The reset input pin is active low. This pin is already pulled up internally and so would not require any external pull-up resistors on the host boards.
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JN5179 MikroBUS Module Datasheet 2.8 Programming the JN5179 MikroBUS Module 2.8.1 Pre-requisites  “LPCXpresso” . (Can be downloaded from here: https://nxp.com/lpcxpresso )  Volansys MENP board.  Micro USB to USB type A cable. 2.8.2 Installing LPCXpresso IDE 1. After the “LPCXpresso” has been installed, JN5179 SDK needs to be installed on the PC in order to program the JN5179 modules. 2. Download the JN5179 ZigBee 3.0 SDK from NXP’s website. Extract the contents of the .zip file in a folder.
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JN5179 MikroBUS Module Datasheet Figure 2-9: Add Repository 5. After the contents of the downloaded .zip file are extracted, there will still be .zip file within which contains all the required .jar files. On the “Add Repository” dialog, click “Archive” and point to the .zip file within the extracted folder. 6. Next copy the SDK part number to “Name”, add “.zip” to it and terminate it with an “!” mark. For e.g., if the SDK part number is JN-SW-4270-ZigBee 3.
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7. JN5179 MikroBUS Module Datasheet Select all the checkboxes at the next prompt and press “Next” to install all the necessary modules of the SDK. Figure 2-11: SDK Elements 8. After successful installation of all the SDK components, re-run the LPCXpresso IDE. There should be JN51xx entry in the menu bar and a programming button should be added to the environment. This is shown in the figure 2-12. Figure 2-12: IDE Addtions JN5179 MikroBUS Module Datasheet | Rev 1.
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JN5179 MikroBUS Module Datasheet 2.8.3 Flashing the JN5179 MikroBUS Module 1. Prepare the MENP board by closing all the necessary jumpers and install the JN5179 MikroBUS module to be programmed shown in figure 2-13. Figure 2-13: JN5179 MikroBUS Module on MENP 2. Connect the MENP board along with the JN5179 MikroBUS module to the PC using a micro USB cable and open the LPCXpresso IDE. 3. Click on JN51xx in menu bar and click “program device”. A program window will open.
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JN5179 MikroBUS Module Datasheet Figure 2-15: Elements of Programming Window 4. Click on “Refresh”. Then select on the appropriate COM port of the MENP and the device discovery area should list the module it discovered. Refer to figure 2-15 for further details. 5. Select appropriate binary file to be flashed into the module using the “File System” button and point towards the file where it is present in the PC’s file system. 6. Press “Program” button and wait for the action to complete.
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JN5179 MikroBUS Module Datasheet 3 3.1 ELECTRICAL CHARACTERISTICS Absolute Maximum Ratings Symbol Parameter Minimum Maximum Unit VDD Supply voltage -0.3 +3.6 V VADC Voltage on analog input -0.3 VDD + 0.3 V VIO Voltage on digital IO -0.3 VDD + 0.3 V Table 3-1: Absolute Maximum Ratings 3.2 Recommended Operating Conditions Symbol Parameter Conditions Minimum Maximum Unit 2 3.6 V -40 85 o VDD Supply voltage To reach maximum TX power, 2.
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JN5179 MikroBUS Module Datasheet 3.3 DC Current 3.3.1 Active Processing VDD = 2V to 3.6V, Tamb = -40 oC to +85 oC, CPU running at 16 MHz; unless otherwise specified. Symbol Parameter Conditions Min Typ Max Unit Radio in receive mode; maximum input level at 10 dBm - 16.4 - mA Radio in receive mode; maximum input level at –2 dBm - 14.3 - mA Radio in transmit mode 10 dBm - 24 - mA Radio in transmit mode 8.5 dBm - 21.2 - mA Radio in receive mode; maximum input level at 10 dBm - 16.
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JN5179 MikroBUS Module Datasheet 3.3.2 Sleep Mode VDD = 2V to 3.6V, Tamb = -40 oC to +85 oC; unless otherwise specified. Symbol Parameter Conditions Min Typ Max Unit With I/O and RC oscillator timer wake-up; typical values measured at Tamb = 25 oC - 0.61 - µA - 0.64 - µA Conditions Min Typ Max Unit Typical values measured at Tamb = 25 oC and VDD = 3.
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JN5179 MikroBUS Module Datasheet 3.4 RF Characteristics 3.4.1 RF Port Characteristics VDD = 2V to 3.6V, Tamb = -40 oC to +85 oC; unless otherwise specified. Symbol frange Parameter Frequency range Minimum Typical Maximum Unit 2.4 - 2.485 GHz Table 3-6: RF Port Characteristics 3.4.2 Radio Transceiver Characteristics VDD = 2V to 3.6V, Tamb = 25 oC; unless otherwise specified. Symbol Parameter Conditions Min Typ Max Unit - -96 -93.
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JN5179 MikroBUS Module Datasheet Symbol Parameter Conditions Min Typ Max Unit - -100 -98.5 dBm M16 SRX Receiver sensitivity Pi(RX)(max) Maximum 1 % PER, measured as sensitivity; supply receiver input current at 14.3 mA power - -11 - dBm 95 dBm to  10 dBm; available through JN5179-001-M1x Integrated Peripherals API -4 - +4 dB IDD = 24 mA - 10 - dBm IDD = 21.2 mA - 8.5 - dBm - -42 - dB IDD = 24 mA - 10 - dBm IDD = 21.2 mA - 8.
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JN5179 MikroBUS Module Datasheet 4 MODULE DIMENSIONS Table 4-1: JN5179 MikroBUS Module Dimensions JN5179 MikroBUS Module Datasheet | Rev 1.
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5 CERTIFICATIONS JN5179 MikroBUS Module Datasheet For Zigbee module, pre-compliance has been done as per FCC CFR 47 part 15C. Operation is subject to the following conditions:   This device may not cause harmful interference, and This device must accept any interference received, including interference that may cause undesirable operation. FCC RF Radiation Exposure Statement This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment.
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JN5179 MikroBUS Module Datasheet 6 APPLICATION NOTE 6.1 Safety Precautions These specifications are intended to preserve the quality assurance of products as individual components. Before use, check and evaluate the module’s operation when mounted on your products. Abide by these specifications when using the products. These products may short-circuit.
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JN5179 MikroBUS Module Datasheet 6.3 Storage Conditions The module must not be stressed mechanically during storage. Do not store these products in the following conditions or the performance characteristics of the product, such as RF performance, may well be adversely affected:  Storage in salty air or in an environment with a high concentration of corrosive gas, such as Cl2, H2S, NH3, SO2, or NOX.
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FCC regulatory conformance： This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference. (2) This device must accept any interference received, including interference that may cause undesired operation. NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules.
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This device contains licence-exempt transmitter(s)/receiver(s) that comply with Innovation, Science and Economic Development Canada's licence-exempt RSS(s). Operation is subject to the following two conditions: (1) This device may not cause interference. (2) This device must accept any interference, including interference that may cause undesired operation of the device. Cet appareil est conforme à la norme CAN ICES-003 (B)/NMB-003 (B).
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ORIGINAL EQUIPMENT MANUFACTURER (OEM) NOTES The OEM must certify the final end product to comply with unintentional radiators (FCC Sections 15.107 and 15.109) before declaring compliance of the final product to Part 15 of the FCC rules and regulations. Integration into devices that are directly or indirectly connected to AC lines must add with Class II Permissive Change. The OEM must comply with the FCC labeling requirements.
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IC labeling requirement for the final end product: The final end product must be labeled in a visible area with the following “Contains IC: 22256-JN5179M16” The Host Marketing Name (HMN) must be indicated at any location on the exterior of the host product or product packaging or product literature, which shall be available with the host product or online. Unauthorized modifications could void the user's authority to operate the equipment.