PCB layout files for single ended RF I/O layout has been made for the Nordic Semiconductor nrf24z1 Single Chip 2.4 GHz audio streamer [1].

Similar documents
nrf905-evboard nrf905 Evaluation board PRODUCT SPECIFICATION GENERAL DESCRIPTION

Power and ground is applied to the nrf401 Loop Module via connector footprint J1. Voltage range on this input must be restricted to +2.7V to +5.25V.

Sharing crystal with a MCU

Using a 2450BM14A0002 Balun with nrf24le1 QFN32

433MHz Single Chip RF Transmitter

Single chip 433MHz RF Transceiver

UHF RFID Micro Reader Reference Design Hardware Description

nan Small loop antennas APPLICATION NOTE 1. General 2. Loop antenna basics

CMT2210A Schematic and PCB Layout Design Guideline

The purpose of this document is to provide the guidelines to design a low power consumption, low BOM and high

CMT211xA Schematic and PCB Layout Design Guideline

nrf Performance Test Instructions nrf24l01+ Application Note

Driver or Pre -driver Amplifier for Doherty Power Amplifiers

2.4 GHz wireless mono audio streamer. Applications

ISM Band Repeater Demo

AAA. Figure 1: Test setup for output power measurement

Wireless hands-free using nrf24e1

White paper: Interfacing a 2.4GHz Transceiver to a Philips Twin-Eye Laser Sensor

DRF1278F 20dBm LoRa Long Range RF Front-end Module V1.11

Hardware Design Considerations for MKW41Z/31Z/21Z BLE and IEEE Device

Features. Micrel Inc Fortune Drive San Jose, CA USA tel +1 (408) fax + 1 (408)

8/21/2017. Executive Summary Problem Statement & Solution System Requirements System Analysis

Heterojunction Bipolar Transistor Technology (InGaP HBT) High Efficiency/Linearity Amplifier

SA601 Low voltage LNA and mixer 1 GHz

Heterojunction Bipolar Transistor Technology (InGaP HBT) High Efficiency/Linearity Amplifier

Table 1 nrf2402 quick reference data. Type Number Description Version. Table 2 nrf2402 ordering information

CGY2107HV CGY2107HV PRODUCT DATASHEET. Dual High Gain Low Noise High IP3 Amplifier. Rev 0.2 FEATURES APPLICATIONS DESCRIPTION

CMT2300AW Schematic and PCB Layout Design Guideline

3.8 GHz Linear Power Amplifier and BTS Driver High Efficiency/Linearity Amplifier

PRELIMINARY DATASHEET

Parameter Value Unit. Table 1 nrf2402/nrf2402g quick reference data

AN-1370 APPLICATION NOTE

Heterojunction Bipolar Transistor Technology (InGaP HBT) High Efficiency/Linearity Amplifier

AND9518/D DAB L-band Amplifier using the NSVF4020SG4

Enhancement Mode phemt

Catalog

Enhancement Mode phemt

2. Design Recommendations when Using EZRadioPRO RF ICs

RB01 Development Platform Hardware

Driver or Pre -driver General Purpose Amplifier

Characteristic Symbol Value (2) Unit R JC 57 C/W

TQP7M W High Linearity Amplifier. Applications. Ordering Information

DP1205 C433/868/ , 868 and 915 MHz Drop-In RF Transceiver Modules Combine Small Form Factor with High Performance

2 W High Gain Power Amplifier for Cellular Infrastructure InGaP GaAs HBT

AN0504 Tag Design with swarm bee LE

Application Note No. 067

Heterojunction Bipolar Transistor Technology (InGaP HBT) Broadband High Linearity Amplifier

Heterojunction Bipolar Transistor Technology (InGaP HBT) High Efficiency/Linearity Amplifier

DISCRETE SEMICONDUCTORS DATA SHEET. book, halfpage M3D109. BGA6489 MMIC wideband medium power amplifier. Product specification 2003 Sep 18

Enhancement Mode phemt

Maxim Integrated Products 1

2 W High Gain Power Amplifier for Cellular Infrastructure InGaP GaAs HBT

ACI8105 6dBm module specification

PRELIMINARY DATASHEET

Heterojunction Bipolar Transistor Technology (InGaP HBT) Broadband High Linearity Amplifier

EVB /433MHz Transmitter Evaluation Board Description

Edition Published by Infineon Technologies AG Munich, Germany 2010 Infineon Technologies AG All Rights Reserved.

EVB /915MHz Transmitter Evaluation Board Description

SKY LF: MHz Low-Noise Power Amplifier Driver

Mini Modules Castellation Pin Layout Guidelines - For External Antenna

Application Note No. 075

nrf52832 Errata Attachment Anomaly 109 Addendum DMA access transfers might be corrupted

Enhancement Mode phemt

ISM BAND FSK TRANSMITTER MODULE RFM02

NVA-R661 Radar Module

DATA SHEET. BGA2771 MMIC wideband amplifier DISCRETE SEMICONDUCTORS. Product specification Supersedes data of 2001 Oct Aug 06.

Antenna Design Guide

DATA SHEET. BGA2776 MMIC wideband amplifier DISCRETE SEMICONDUCTORS. Product specification Supersedes data of 2001 Oct Aug 06.

SKY LF: Low Noise Amplifier Operation

TQP PCB. DC-6 GHz Gain Block. Applications. Ordering Information

PRELIMINARY DATASHEET

CMT2300A. Ultra Low Power Sub-1GHz Transceiver CMT2300A. Features. Applications. Ordering Information. Descriptions.

DISCRETE SEMICONDUCTORS DATA SHEET. book, halfpage MBD128. BGA2709 MMIC wideband amplifier. Preliminary specification 2002 Jan 31

Features. Applications

AN4819 Application note

Single stage LNA for GPS Using the MCH4009 Application Note

ISM BAND FSK TRANSMITTER MODULE RFM02

LNAˍ024ˍ GHz Low-Noise Amplifier in Silicon Germanium Technology

AN BFU725F/N1 2.4 GHz LNA evaluation board. Document information. Keywords. LNA, 2.4GHz, BFU725F/N1 Abstract

QN902X. Hardware Application Note. Document information. This document is the application note for hardware design with QN902x.

SKY LF: GHz Five-Bit Digital Attenuator with Serial-to-Parallel Driver (0.5 db LSB)

High Frequency Ceramic Solutions

TQP DC-6 GHz Gain Block

TQP7M W High Linearity Amplifier. Applications. Ordering Information. Part No. Description

MICRF113. Features. General Description. Applications. Ordering Information. 300MHz to 450MHz +10dBm ASK Transmitter in SOT23

AN933: EFR32 Minimal BOM

MLX83100 Automotive DC Pre-Driver EVB83100 for Brushed DC Applications with MLX83100

SKY : 2.4 GHz Transmit/Receive Front-End Module with Integrated Low-Noise Amplifier

PRELIMINARY DATASHEET

Features. Truth Table (1)

Characteristic Symbol Value (2) Unit R JC 92.0 C/W

SX1261/2 WIRELESS & SENSING PRODUCTS. Application Note: Reference Design Explanation. AN Rev 1.1 May 2018

Heterojunction Bipolar Transistor Technology (InGaP HBT) Broadband High Linearity Amplifier

2 W High Gain Power Amplifier for Cellular Infrastructure InGaP GaAs HBT

*Requires component changes

MIC4414/4415. General Description. Features. Applications. Typical Application. 1.5A, 4.5V to 18V, Low-Side MOSFET Driver

SKY : 3400 to 3600 MHz Wide Instantaneous Bandwidth High-Efficiency Power Amplifier

Application Note 5011

IS31LT3360 AIC DEMO BOARD GUIDE

Application Note 5460

Transcription:

nrf24z1 RF layout nan24-09 1. GENERAL PCB layout files for single ended RF I/O layout has been made for the Nordic Semiconductor nrf24z1 Single Chip 2.4 GHz audio streamer [1]. The PCB layout files are compressed into the Zip archive format, and can be downloaded for free from the Nordic Semiconductor ASA web site: http://www.nordicsemi.no. The Zip archive file includes a file named readme.wri that must be read before importing the files into PCB editors. The described layout should be manufactured on standard 1.6mm double-sided FR4 printed circuit board (PCB). 2. RF LAYOUT FOR nrf24z1 The nrf24z1 has several I/O and control interfaces and can be operated both controlled from external microcontroller and standalone. What I/O options that are to be used and hence the layout around the digital I/O pins of the device will vary. The following RF layouts include all necessary circuitry to design the radio part of a shortrange wireless audio system based on nrf24z1. The RF layouts are all fitted with a single ended connection to a 50Ω antenna by using a differential to single ended matching network. The PCB layouts are using 0603 passive components. The antenna connection point should be as close as possible to the output of the matching network. If this is not possible of practical reasons, the PCB track between the output of the matching network and the antenna connection should be carried out as a 50Ω microstrip line or a 50Ω coplanar waveguide. Supply voltage and GND are also available at the perimeter of the RF layout. The supply voltage for the RF part of the application circuit should be filtered separately from the supply voltages of any digital circuitry. Star routing is strictly recommended from the voltage supply source to the RF and digital or other parts of the application circuitry. Necessary digital control signals are available at the perimeter of the RF layout either to be connected to the digital part of customer applications or to be terminated if not used. All RF PCB layouts presented in the following sections is found in the zip archive PCB_nRF24Z1_single_netw_0603_v1-0.zip. This archive is available for free in the development tools section of the nrf24z1 page on the Nordic Semiconductor web site. Revision: 1.0 Page 1 of 16 May 2005

2.1. General purpose ATX On the audio source side of a wireless audio link, the nrf24z1 must be set up in ATX mode and hence become an audio transmitter. A general purpose schematic and layout where all digital lines are routed to the boundary of the layout is shown in Figure 1 and Figure 2. The recommended external components are given in Table 1. MSDA MSCL MCSN MMISO MMOSI MSCK C10 1nF IRQ SSEL SMISO/SSDA SSCK/SSCL SCSN/SADR SMOSI/DD2 DD1 DD0 REQ C9 10nF 1 2 3 4 5 6 7 8 9 U1 35 IRQ/DO[3]/PWM 36 SSEL/DO[2] SMISO/SSDA/DO[1] SSCK/SSCL/DO[0] SCSN/SADR/DI[3] SMOSI/DD[2]/DI[2] DD[1]/DI[1] DD[0]/DI[0] REQ 34 33 32 31 30 29 28 MSCK MMOSI MMISO MCSN MSCL nrf24z1 QFN36 6x6 MSDA MODE IREF _PA ANT2 ANT1 _PA 27 26 25 24 23 22 21 20 19 R2 22kohm L1 3.3nH C6 1pF L3 3.3nH C7 1.5pF RF RF L2 CLK WS DATA SPDIO MCLK D XC2 XC1 C5 1pF 10nH nrf24z1 10 11 12 13 14 15 16 17 18 CLK WS DATA SPDIO MCLK C3 2.2nF C4 4.7pF C11 33nF X1 R1 1M C1 15pF C2 15pF Figure 1 nrf24z1 ATX mode schematic including single ended 50Ω antenna connection Revision: 1.0 Page 2 of 16 May 2005

No components in bottom layer Top silk screen Top view Bottom view Figure 2 General purpose nrf24z1 ATX mode layout Revision: 1.0 Page 3 of 16 May 2005

Designator Description Footprint Value Tolerance Unit C1 Capacitor NP0 CC1608-0603 15 +/- 5% pf C2 Capacitor NP0 CC1608-0603 15 +/- 5% pf C3 Capacitor X7R CC1608-0603 2.2 +/- 10% nf C4 Capacitor NP0 CC1608-0603 4.7 +/- 5% pf C5 Capacitor NP0 CC1608-0603 1.0 +/-0.1 pf pf C6 Capacitor NP0 CC1608-0603 1.0 +/-0.1 pf pf C7 Capacitor NP0 CC1608-0603 1.5 +/-0.25 pf pf C9 Capacitor X7R CC1608-0603 10 +/- 10% nf C10 Capacitor X7R CC1608-0603 1 +/- 10% nf C11 Capacitor X7R CC1608-0603 33 +/- 10% nf L1 Chip inductor CR1608-0603 3.3 TOKO LL1608-FSL series 1 nh L2 Chip Inductor CR1608-0603 10 +/- 5% nh L3 Chip Inductor CR1608-0603 3.3 TOKO LL1608-FSL series 1 nh R1 Resistor CR1608-0603 1 +/- 10% Mohm R2 Resistor CR1608-0603 22 +/- 1% kohm 2.4 GHz audio U1 streamer QFN36L/6x6 nrf24z1 X1 Crystal Cl=9pF, ESR < 100 ohm, BT-XTAL 16 +/-30 ppm MHz Table 1 Component list for general purpose ATX (and ARX) nrf24z1 layout with single ended antenna matching network 1 Inductor values are usually characterized at 100-250 MHz. Behavior at 2.4 GHz may vary significantly between different inductor product series and vendors, even though the given inductance is the same. Inductors from other TOKO series or other vendors may well be used, but antenna match performance MUST be verified as the inductor values may need to be changed. NOTE: The characteristics of one inductor series between production batches are WELL controlled, this is hence a task that only needs to be done during prototyping and when setting up second sources for production. Revision: 1.0 Page 4 of 16 May 2005

2.2. General purpose ARX On the receiving side of the audio link one need a corresponding nrf24z1 in ARX mode as an audio receiver. The schematic and layout can be seen in Figure 3 and Figure 4. As can be seen, the only difference between the general purpose ATX and ARX layout are the connection of pin26 (MODE) and the direction and naming of some digital I/O pins. The external components are hence as for the general purpose ATX layout shown in Table 1. MSDA MSCL MCSN MMISO MMOSI MSCK C10 1nF DO3/PWM SSEL/DO2 SMISO/SSDA/DO1 SSCK/SSCL/DO0 SCSN/SADR/DI3 SMOSI/DI2 DI1 DI0 REQ C9 10nF 1 2 3 4 5 6 7 8 9 U1 35 IRQ/DO[3]/PWM 36 SSEL/DO[2] SMISO/SSDA/DO[1] SSCK/SSCL/DO[0] SCSN/SADR/DI[3] SMOSI/DD[2]/DI[2] DD[1]/DI[1] DD[0]/DI[0] REQ 34 33 32 31 30 29 28 MSCK MMOSI MMISO MCSN MSCL nrf24z1 QFN36 6x6 MSDA MODE IREF _PA ANT2 ANT1 _PA 27 26 25 24 23 22 21 20 19 R2 22kohm L1 3.3nH C6 1pF L3 3.3nH C7 1.5pF RF RF L2 CLK WS DATA SPDIO MCLK D XC2 XC1 C5 1pF 10nH nrf24z1 10 11 12 13 14 15 16 17 18 CLK WS DATA SPDIO MCLK C3 2.2nF C4 4.7pF C11 33nF X1 R1 1M C1 15pF C2 15pF Figure 3 General purpose nrf24z1 ARX mode schematic Revision: 1.0 Page 5 of 16 May 2005

No components in bottom layer Top silk screen Top view Bottom view Figure 4 General purpose nrf24z1 ARX mode layout Revision: 1.0 Page 6 of 16 May 2005

3. Application specific nrf24z1 layouts As the nrf24z1 has a number of I/O options and operational modes the general purpose layouts will have several I/O lines routed out that are not used in a given application. Therefore layouts that are examples of likely ways to use the nrf24z1 are also included in the layout archive. Here only needed nrf24z1 I/O signals are routed to the edge of the layout, all other I/O pins are either terminated (inputs) or left open (outputs). 3.1. ATX with external controlling MCU This ATX layout utilizes the following nrf24z1 I/O features/options I2S audio in SPI slave interface routed out to the edge for connection to an external microcontroller (allow external control of nrf24z1) 2 general purpose inputs 1 interrupt output The schematic and layout are shown in Figure 5 and Figure 6. Components are listed in Table 2. C10 1nF C9 10nF IRQ IRQ SMISO SSCK SCSN SMOSI DD1 DD0 SMISO SSCK SCSN SMOSI DD1 DD0 1 2 3 4 5 6 7 8 9 U1 35 IRQ/DO[3]/PWM 36 SSEL/DO[2] SMISO/SSDA/DO[1] SSCK/SSCL/DO[0] SCSN/SADR/DI[3] SMOSI/DD[2]/DI[2] DD[1]/DI[1] DD[0]/DI[0] REQ MSCK MMOSI MMISO MCSN MSCL nrf24z1 QFN36 6x6 34 33 32 31 30 29 28 MSDA MODE IREF _PA ANT2 ANT1 _PA 27 26 25 24 23 22 21 20 19 R2 22kohm L1 3.3nH C6 1pF L3 3.3nH C7 1.5pF RF RF R3 47kohm R4 47kohm CLK WS DATA SPDIO MCLK D XC2 XC1 C5 1pF L2 10nH nrf24z1 10 11 12 13 14 15 16 17 18 I2S_CLK I2S_WS I2S_DATA I2S_CLK I2S_WS I2S_DATA C3 2.2nF C4 4.7pF C11 33nF X1 R1 1M C1 15pF C2 15pF Figure 5 nrf24z1 ATX mode schematic for operation with external microcontroller Revision: 1.0 Page 7 of 16 May 2005

No components in bottom layer Top silk screen Top view Bottom view Figure 6 nrf24z1 ATX layout for use with external microcontroller Revision: 1.0 Page 8 of 16 May 2005

Designator Description Footprint Value Tolerance Unit nrf24z1 core components : C1 Capacitor NP0 CC1608-0603 15 +/- 5% pf C2 Capacitor NP0 CC1608-0603 15 +/- 5% pf C3 Capacitor X7R CC1608-0603 2.2 +/- 10% nf C4 Capacitor NP0 CC1608-0603 4.7 +/- 5% pf C5 Capacitor NP0 CC1608-0603 1.0 +/-0.1 pf pf C6 Capacitor NP0 CC1608-0603 1.0 +/-0.1 pf pf C7 Capacitor NP0 CC1608-0603 1.5 +/-0.25 pf pf C9 Capacitor X7R CC1608-0603 10 +/- 10% nf C10 Capacitor X7R CC1608-0603 1 +/- 10% nf C11 Capacitor X7R CC1608-0603 33 +/- 10% nf L1 Chip inductor CR1608-0603 3.3 TOKO LL1608-FSL series 1 nh L2 Chip Inductor CR1608-0603 10 +/- 5% nh L3 Chip Inductor CR1608-0603 3.3 TOKO LL1608-FSL series 1 nh R1 Resistor CR1608-0603 1 +/- 10% Mohm R2 Resistor CR1608-0603 22 +/- 1% kohm 2.4 GHz audio U1 streamer QFN36L/6x6 nrf24z1 X1 Crystal Cl=9pF, ESR < 100 ohm, BT-XTAL 16 +/-30 ppm MHz Specific for this layout R3 Resistor CC1608-0603 47 +/- 5% kohm R4 Resistor CC1608-0603 47 +/- 5% kohm Table 2 Component list for general purpose ATX (and ARX) nrf24z1 layout with single ended antenna matching network Note that the extra resistors are put in to ensure no extra leakage current in power down (R4) and that microcontroller RESET doesn t cause any unwanted changes on SPI interface (R3 keeps SSCK from floating. 1 Inductor values are usually characterized at 100-250 MHz. Behavior at 2.4 GHz may vary significantly between different inductor product series and vendors, even though the given inductance is the same. Inductors from other TOKO series or other vendors may well be used, but antenna match performance MUST be verified as the inductor values may need to be changed. NOTE: The characteristics of one inductor series between production batches are WELL controlled, this is hence a task that only needs to be done during prototyping and when setting up second sources for production. Revision: 1.0 Page 9 of 16 May 2005

3.2. ARX with external EEPROM This ARX utilizes the following nrf24z1 I/O features and options: I2S audio out SPI EEPROM to enable stand alone operation. 8 (4+4) general purpose inputs and outputs that can be controlled from a linked ATX Schematics and layout can be seen in Figure 7 and Figure 8, needed components are listed in Table 3. CSN MISO 1 2 3 4 U2 CS SO WP VCC HOLD SCK SI 8 7 6 5 SCK MOSI 25XX010 R3 47k C10 1nF DO3 DO2 DO1 DO0 DI3 DI2 DI1 DI0 C9 10nF 1 2 3 4 5 6 7 8 9 U1 35 IRQ/DO[3]/PWM 36 SSEL/DO[2] SMISO/SSDA/DO[1] SSCK/SSCL/DO[0] SCSN/SADR/DI[3] SMOSI/DD[2]/DI[2] DD[1]/DI[1] DD[0]/DI[0] REQ 34 33 32 31 30 29 28 MSCK MMOSI MMISO MCSN MSCL nrf24z1 QFN36 6x6 MSDA MODE IREF _PA ANT2 ANT1 _PA 27 26 25 24 23 22 21 20 19 R2 22kohm L1 3.3nH C6 1pF L3 3.3nH C7 1.5pF RF RF L2 CLK WS DATA SPDIO MCLK D XC2 XC1 C5 1pF 10nH nrf24z1 10 11 12 13 14 15 16 17 18 I2S_CLK I2S_WS I2S_DATA I2S_MCLK C3 2.2nF C4 4.7pF C11 33nF X1 R1 1M C1 15pF C2 15pF Figure 7 nrf24z1 ARX mode schematic for operation with external SPI EEPROM. Revision: 1.0 Page 10 of 16 May 2005

No components in bottom layer Top silk screen Top view Bottom view Figure 8 nrf24z1 ARX mode layout with external SPI EEPROM Revision: 1.0 Page 11 of 16 May 2005

Designator Description Footprint Value Tolerance Unit nrf24z1 core components: C1 Capacitor NP0 CC1608-0603 15 +/- 5% pf C2 Capacitor NP0 CC1608-0603 15 +/- 5% pf C3 Capacitor X7R CC1608-0603 2.2 +/- 10% nf C4 Capacitor NP0 CC1608-0603 4.7 +/- 5% pf C5 Capacitor NP0 CC1608-0603 1.0 +/-0.1 pf pf C6 Capacitor NP0 CC1608-0603 1.0 +/-0.1 pf pf C7 Capacitor NP0 CC1608-0603 1.5 +/-0.25 pf pf C9 Capacitor X7R CC1608-0603 10 +/- 10% nf C10 Capacitor X7R CC1608-0603 1 +/- 10% nf C11 Capacitor X7R CC1608-0603 33 +/- 10% nf L1 Chip inductor CR1608-0603 3.3 TOKO LL1608-FSL series 1 nh L2 Chip Inductor CR1608-0603 10 +/- 5% nh L3 Chip Inductor CR1608-0603 3.3 TOKO LL1608-FSL series 1 nh R1 Resistor CR1608-0603 1 +/- 10% Mohm R2 Resistor CR1608-0603 22 +/- 1% kohm 2.4 GHz audio U1 streamer QFN36L/6x6 nrf24z1 X1 Crystal Cl=9pF, ESR < 100 ohm, BT-XTAL 16 +/-30 ppm MHz Specific for this layout R3 Resistor CC1608-0603 47 +/- 5% kohm U2 SPI EEPROM SO8 Table 3 Components needed in nrf24z1 ARX mode layout with external EEPROM 1 Inductor values are usually characterized at 100-250 MHz. Behavior at 2.4 GHz may vary significantly between different inductor product series and vendors, even though the given inductance is the same. Inductors from other TOKO series or other vendors may well be used, but antenna match performance MUST be verified as the inductor values may need to be changed. NOTE: The characteristics of one inductor series between production batches are WELL controlled, this is hence a task that only needs to be done during prototyping and when setting up second sources for production. Revision: 1.0 Page 12 of 16 May 2005

4. REFERENCES [1] Product Specification nrf24z1, Single chip 2.4 GHz audio streamer, Nordic Semiconductor ASA. Revision: 1.0 Page 13 of 16 May 2005

LIABILITY DISCLAIMER Nordic Semiconductor ASA reserves the right to make changes without further notice to the product to improve reliability, function or design. Nordic Semiconductor does not assume any liability arising out of the application or use of any product or circuits described herein. LIFE SUPPORT APPLICATIONS These products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. Nordic Semiconductor ASA customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Nordic Semiconductor ASA for any damages resulting from such improper use or sale. Application Note, Revision: 1-0 Date: 2005-05-10 Application Note order code: 20050510-nAN24-09 All rights reserved. Reproduction in whole or in part is prohibited without the prior written permission of the copyright holder. Revision: 1.0 Page 14 of 16 May 2005

YOUR NOTES Revision: 1.0 Page 15 of 16 May 2005

Nordic Semiconductor - World Wide Distributors For Your nearest dealer, please see http://www.nordicsemi.no Main Office: Vestre Rosten 81, N-7075 Tiller, Norway Phone: +47 72 89 89 00, Fax: +47 72 89 89 89 Visit the Nordic Semiconductor ASA website at http://www.nordicsemi.no Revision: 1.0 Page 16 of 16 May 2005

2024 © hobbydocbox.com Privacy Policy | Terms of Service | Feedback