1 September 2010 Slide 1 Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [ Narrow band frequency channel.

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Presentation transcript:

1 September 2010 Slide 1 Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [ Narrow band frequency channel plan in 433MHz band for Active RFID ] Date Submitted: [September ] Source: [Masashi Shimizu (NTT)] Address Voice:[], FAX: [], [] Re: [] Abstract:[Channel plan for 433MHz Active RFID systems to satisfy Japanese RR] Purpose:[World wide use of 433MHz] Notice:This document has been prepared to the channel plan to satisfy Japanese narrow 433MHz band. Release: Masashi Shimizu (NTT) doc.: IEEE f

2 Narrow band frequency channel plan in 433MHz band for Active RFID Masashi Shimizu NTT Network Innovation Lab

3 Constrained Condition Japanese frequency allocation is from MHz to MHz. Occupied bandwidth is narrower than 200KHz for Tag side. TX power is lower than 0dBm EIRP. 433MHz band must be used for international logistics only. Occupied bandwidth is defined as 99% power. Data rate should be set harmonics of 1Mbps which is basic data rate. (1000,500,250,125,62.5,31.25Kbps)

4 Bandwidth measurements 31.25Kbps MSK -20dBc bandwidth 43KHz 99% power Band width 38KHz

5 Benefit of “433 MHz Narrow Band Active RFID” It can be used world wide for international logistics (i.e. ocean container tracking) without interference from WiFi. EPC global has been discussed this issues. The narrow band RFID can expand communication range compare with the wide band Active RFID under the same power, modulation and coding.

6 Sensitivity Sensitivity was measured by using CC430 test board in case of 31.25Kbps, 62.5Kbps and 250Kbps respectively. Tx and RX were connected through the attenuator.

7 Channel Isolation 250Kbps

8 Channel Isolation 31.25Kbps 60KHz Channel

9 Example of Channel Plan Allocated Frequency Kbps, 60KHz separation,100KHz bandwidth (99% power) is assumed. In order to have certification of 433MHz Band, only edge channels (Ch1,Ch7) are critical. It is no concept of channels in Japanese RR of 433MHz, the bandwidth will be checked at only lower than MHz and higher than MHz. edge of 100KHz band Ch1Ch2Ch3Ch4Ch5Ch6Ch7

10 Future work We understood Japanese 433MHz RR is not meet world wide standards. We will continue to negotiate with Armature Radio to open more wide band and to lift the usage limitation. We already started this work using the special frequency zone program governed with Japanese Ministry of Internal Affairs and Communications using car export lane. After IEEE defines new standards, we will use this spec for negotiations.