Cypress AN214934 Manuel utilisateur

THIS SPEC IS OBSOLETE

Spec No: 002-14934

Spec Title: AN214934 - BLUETOOTH LOW ENERGY

CURRENT CONSUMPTION MEASUREMENTS

Replaced by: NONE

www.cypress.com Document No. 002-14934 Rev. *C 1

Contents

1 Introduction ................................................................ 1

1.1 Cypress Part Numbering Scheme..................... 1

1.2 Acronyms and Abbreviations............................. 2

1.3 References ........................................................ 2

2 IoT Resources............................................................ 2

3 Overview .................................................................... 2

4 Comparing Bluetooth Low Energy to

Bluetooth 2.x/3.x......................................................... 2

5 Test Setup.................................................................. 3

5.1 System Requirements ....................................... 3

5.2 Test Equipment Settings....................................4

5.3 Daughterboard Settings .....................................5

5.4 BCM9UMB Bluetooth/WLAN Motherboard

Settings.............................................................. 7

5.5 Loading the Configuration File .........................10

6 Current Consumption Measurements.......................13

6.1 Advertising Mode .............................................13

6.2 Scan Mode.......................................................18

Document History Page ...................................................22

Worldwide Sales and Design Support ..............................23

1 Introduction

The CYW4330 implements the industry's most advanced radio coexistence algorithms and hardware mechanisms

to allow an extremely collaborative WLAN and Bluetooth coexistence scheme, along with coexistence support for

external radios (such as GPS and WiMAX). The result is an enhanced overall quality for simultaneous voice,

video, and data transmission on a handheld system.

This application note provides an introduction to the Bluetooth Low Energy (BLE) technology, and describes the

setup and procedures to measure the basic current consumption in two of the most common BLE modes (adver-

tising and scan mode).

This application note is intended for hardware engineers and designers who are using the CYW4330 device in

their design.

This document assumes that a user knows how to download firmware to the CYW4330 device. If the CYW4330

device has already been integrated onto a platform, the proper configuration files need to be loaded and the

proper commands for BLE are generated by the host processor. If an evaluation board is being used, this can be

accomplished by using Cypress’s proprietary BlueTool™ software. Contact your local Cypress technical represen-

tative for BlueTool support.

1.1 Cypress Part Numbering Scheme

Cypress is converting the acquired IoT part numbers from Broadcom to the Cypress part numbering scheme. Due

to this conversion, there is no change in form, fit, or function as a result of offering the device with Cypress part

number marking. The table provides Cypress ordering part number that matches an existing IoT part number.

Table 1. Mapping Table for Part Number between Broadcom and Cypress

AN214934

Bluetooth Low Energy Current Consumption Measurements

Associated Part Family: CYW4330

This application note provides an introduction to the Bluetooth Low Energy (BLE) technology, and describes the setup and

procedures to measure the basic current consumption in two of the most common BLE modes (advertising and scan mode).

This application note is intended for hardware engineers and designers who are using the CYW4330 device in their design.

Broadcom Part Number Cypress Part Number

BCM4330 CYW4330

Bluetooth Low Energy Current Consumption Measurements

www.cypress.com Document No. 002-14934 Rev. *C 2

1.2 Acronyms and Abbreviations

In most cases, acronyms and abbreviations are defined on first use.

For a comprehensive list of acronyms and other terms used in Cypress documents, go to:

http://www.cypress.com/glossary

1.3 References

The references in this section may be used in conjunction with this document.

Note: Cypress provides customer access to technical documentation and software through its Cypress Developer

Community and Downloads & Support site (see Overview).

For Cypress documents, replace the “xx” in the document number with the largest number available in the reposi-

tory to ensure that you have the most current version of the document.

2 IoT Resources

Cypress provides a wealth of data at http://www.cypress.com/internet-things-iot to help you to select the right IoT

device for your design, and quickly and effectively integrate the device into your design. Cypress provides cus-

tomer access to a wide range of information, including technical documentation, schematic diagrams, product bill

of materials, PCB layout information, and software updates. Customers can acquire technical documentation and

software from the Cypress Support Community website (http://community.cypress.com/).

3Overview

The Bluetooth Low Energy (BLE) technology is a global standard for very low-power wireless technology. The BLE

devices can operate from coin cell batteries for applications that use low data rates. BLE devices can communi-

cate wirelessly to dual mode Bluetooth-enabled devices. The connections are designed to be robust, short range,

and low cost. The BLE-enabled devices are used in the area of fitness, advertising, medical, security, and home

entertainment.

4 Comparing Bluetooth Low Energy to Bluetooth 2.x/3.x

The similarities between the Bluetooth and the BLE technology allow a Bluetooth transceiver to have dual-mode

operation. Bluetooth and BLE technology can coexist in one device. For example, a BLE radio can use the follow-

ing items from an existing Bluetooth radio:

■Radio architecture

■Host controller interface (HCI) logical and physical transports

■Logical link control and adaptation protocol (L2CAP)

The BLE technology differs from Bluetooth in the following areas:

■Discovery and connection procedures are handled differently when it comes to lowering total power consump-

tion.

■BLE is limited to only one packet type.

■Connections are entered and always exited in sniff-like mode.

■Transmit and receive operations are governed by interframe spacing as opposed to being slot oriented.

■Profiles are thinner than standard Bluetooth and are structured around client/server architecture.

■BLE devices have lower duty cycles and only three advertising channels to lower connection time. The shorter

enable and connection times result in lowering total power consumption.

Document (or Item) Name

Broadcom

Document Number

Cypress

Document Number Source

Cypress Items

Cypress Bluetooth/WLAN Motherboard For

Cypress Bluetooth and Wireless LAN

Applications Testing, BCM9UMB Hardware

User Manual

9UMB-HWUM100-R – Cypress Developer Community

Bluetooth Low Energy Current Consumption Measurements

www.cypress.com Document No. 002-14934 Rev. *C 3

The BLE devices can either be dual or single mode. The dual-mode devices are combined with a Bluetooth device

for use in PCs, cell phones, and tablets. The single-mode devices are BLE only, and are designed to have very

low power consumption. The single mode devices are typically small and can operate for a long period of time

using a coin cell battery. The CYW4330 is a dual mode device with Bluetooth and BLE.

Table 2 lists specifications for the BLE and Bluetooth technology.

5 Test Setup

This section describes the setup and procedures to measure the basic current consumption in BLE modes.

The current consumption is not measured in the typical method that is by using a multimeter, or adding a series

resistor and an oscilloscope. The recommended method is to use a power analyzer. A power analyzer is power

supply with the ability to make detailed current measurements. A power analyzer is used to measure peak current

and average current consumption over a longer period of time. A power analyzer can measure both without hav-

ing to use multiple pieces of equipment such as a scope and multimeter. BLE is mostly in sleep mode with a very

short active period.

5.1 System Requirements

The system requirements are listed below.

■Host system requirements

■A personal computer running Microsoft® Windows® operating system is required to use BlueTool. Cypress

recommends running Windows XP; however, other versions of Windows are supported.

■Hardware requirements

❐Agilent N6705A with N6761A precision power supply

❐CYW4330 McLaren daughterboard

❐BCM9UMB Bluetooth/WLAN motherhood

■Software Requirements

BlueTool is a proprietary Cypress software tool for exercising, testing, scripting, debugging, and programming

devices that use Cypress Bluetooth chips. BlueTool runs on a standard PC running the Microsoft® Windows®

operating system. BlueTool interfaces with the Cypress Bluetooth chips at the HCI protocol layer.

Note: For information on how to install BlueTool contact your Cypress representative.

Table 2. BLE and Bluetooth Specifications

Specification BLE Technology Bluetooth Technology

RF section enable time 0.6 ms to 1.2 ms 22.5 ms

Device connection times 3 ms 100 ms

Peak transmit power 10 dBm 20 dBm

Frequency range 2402 to 2480 MHz 2402 to 2480 MHz

RF channel spacing 2 MHz 1 MHz

Channels used 40 channels 80 channels

Bluetooth Low Energy Current Consumption Measurements

www.cypress.com Document No. 002-14934 Rev. *C 4

5.2 Test Equipment Settings

Agilent N6705A with N6761A precision power module is used. Settings for the N6761A are:

■Range: 0.1A

■Current limit: 0.1A

■Sampling rate: 0.04 ms

■Mode: Data logger mode is used to capture current consumption

Figure 1. Board Configuration for the BLE Current Consumption

Bluetooth Low Energy Current Consumption Measurements

www.cypress.com Document No. 002-14934 Rev. *C 5

5.3 Daughterboard Settings

The McLaren daughterboard has to be configured prior to taking the measurements.

■Remove L10 and R30 on the topside of the board, refer to Figure 2.

Figure 2. CYW4330 McLaren Daughterboard

Bluetooth Low Energy Current Consumption Measurements

www.cypress.com Document No. 002-14934 Rev. *C 6

■Remove R23 on the bottomside of the board, refer to Figure 3.

Figure 3. R23 on the Bottomside of the CYW4330 McLaren Daughterboard

Bluetooth Low Energy Current Consumption Measurements

www.cypress.com Document No. 002-14934 Rev. *C 7

5.4 BCM9UMB Bluetooth/WLAN Motherboard Settings

The BCM9UMB bluetooth/wlan motherboard has to be configured prior to taking the measurements.

On the BCM9UMB, remove three jumpers on the topside of the board — J9, J10, and J31. Refer to Figure 4.

The normal power from VBAT to the daughterboard is disconnected by removing the jumper from J31. The exter-

nal power supply powers the rest of the BCM9UMB. Connect power analyzer to EXT2 and GND. Plug in power to

the BCM9UMB as normal and enable the power to the daughterboard from the power analyzer. The voltage from

the power analyzer should be 3.3V.

Refer to 5.2. Test Equipment Settings for the power analyzer settings. Use the analyzer Data Logger mode to

measure the current consumption. Equivalent equipment can be used for measuring current consumption. Note

that VBAT is the supply for the daughterboard. Refer to the BCM9UMB Hardware User Manual for a full descrip-

tion of the motherboard.

Figure 4. BCM9UMB Jumpers

GND

3.3V

Remove Jumpers

Bluetooth Low Energy Current Consumption Measurements

www.cypress.com Document No. 002-14934 Rev. *C 8

To control BT_WAKE, refer to Table 3 and Figure 6 for the schematic and switch location of SW4 on the bottom

side of the board.

Note that the position 1 and 2 needs to be opposite of each other. BT_WAKE has to be toggled to put the device

into sleep mode and both switch positions need to be changed. See Figure 6 for schematic and switch logic. J28-

1 can be used to measure the state of BT_WAKE.

Figure 5. Bluetooth GPIO Controls

Table 3. Bluetooth GPIO Debug Settings for the SW4 DIP Switch

Signal/Configuration IO Drive

BT_GPIO_0 Pole 1 Pole 2

High ON OFF

Low OFF ON

Float (no connect) OFF OFF

BT_GPIO_1 Pole 3 Pole 4

High ON OFF

Low OFF ON

Float (no connect) OFF OFF

BT_GPIO_2 Pole 5 Pole 6

High ON OFF

Low OFF ON

Float (no connect) OFF OFF

BT_GPIO_3 Pole 7 Pole 8

High ON OFF

Low OFF ON

Float (no connect) OFF OFF

Bluetooth Low Energy Current Consumption Measurements

www.cypress.com Document No. 002-14934 Rev. *C 9

Figure 6. Switch Location of SW4

Table des matières

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