TIDUDO6B
May 2019 – October 2020
Description
Resources
Features
Applications
5
1
System Description
1.1
Introduction to Parameters Measured Using TIDA-01580
1.2
High-Level System Description
1.3
Typical Applications
1.4
System Specifications and Design Features
1.5
Key System Specifications
2
System Overview
2.1
Block Diagram
2.2
Highlighted Products
2.2.1
AFE4900
2.2.2
CC2640R2F
2.2.3
TPS61099
2.2.4
TPS63036
2.2.5
TPD1E10B06
2.3
System Design Theory and Design Considerations
2.3.1
AFE4900 and Power Supply
2.3.2
CC2640R2F Microcontroller
2.3.3
PPG Measurement
2.3.4
ECG Measurement
2.3.4.1
Two-Electrode Configuration
2.3.4.2
Three-Electrode Configuration
2.3.5
Selecting TX Supply (TX_SUP) Value for Driving LEDs
2.3.6
Generating TX Supply for Driving LEDs
2.3.6.1
Programming Output Voltage
2.3.6.2
Maximum Output Current
2.3.6.3
Input and Output Capacitor Selection
2.3.6.4
Switching Frequency
2.3.6.5
WEBENCH® Simulation for TPS61099 Boost Converter
2.3.7
Generating RX Supply for AFE4900
2.3.7.1
Setting Output Voltage
2.3.7.2
Capacitor Selection
2.3.7.3
Output Current Limit
2.3.7.4
Inductor Selection
2.3.7.5
TINA-TI™ Simulation for TPS63036
2.3.8
Generating I/O Supply
2.3.9
Battery Input and Reservoir Capacitors
2.3.10
Battery Life Calculations
2.3.10.1
AFE4900 Current Consumption
2.3.10.2
CC2640R2F Current Consumption
2.3.10.3
On-State Current Calculations
2.3.10.4
Off-State Current Calculations (Considering Battery Voltage = 3 V)
2.3.11
External Memory
2.3.12
LED Indications
2.3.13
Connections Between Sensor Board and ECG Board
3
Hardware, Software, Testing Requirements, and Test Results
3.1
Required Hardware and Software
3.1.1
Hardware
3.1.1.1
Connecting Optical Sensor and ECG Boards to Main Board
3.1.1.2
Difference Between PPG Sensor Boards
3.1.2
Software
3.1.2.1
Software Loading for TIDA-01580 Board (Transmit Side of BLE)
3.1.2.2
LabVIEW™ File Execution for Checking Measurement Data (Receive Side of BLE)
3.2
Testing and Results
3.2.1
Test Setup
3.2.2
Test Results
3.2.2.1
Heart-Rate Measurement Using PPG (Green LED) and ECG
3.2.2.2
SpO2 Measurement Using Red and IR LEDs
3.2.2.3
PTT Measurement
3.2.2.4
Lead-Off Detect
3.2.2.4.1
AC Lead-Off Detect
3.2.2.4.2
DC Lead-Off Detect
3.2.2.5
Low-Battery Indication
3.2.2.6
Waveforms for DC/DC Converters
3.2.2.7
Battery Life Test
4
Design Files
4.1
Schematics
4.2
Bill of Materials
4.3
PCB Layout Recommendations
4.3.1
Layout for Main Board
4.3.2
Connection From PDs to AFE
4.3.3
Connections From LEDs to AFE
4.3.4
Connections From ECG PADs to AFE
4.3.5
Connections Between BT and AFE
4.3.6
Connections Between BT Antenna and Chip
4.3.7
Boost Converter
4.3.8
Buck-Boost Converter
4.3.9
Layouts for PPG Sensor Boards
4.3.10
Layout for ECG Sensor Board
4.3.11
Layout Prints
4.4
Altium Project
4.5
Gerber Files
4.6
Assembly Drawings
5
Software Files
6
Related Documentation
6.1
Trademarks
7
About the Authors
Revision History
4.3.3
Connections From LEDs to AFE
Figure 4-6
Traces From LEDs to AFE