中级
30 分钟
使用 GROW R503 和 TM4C1294NCZAD 保护您的项目
轻松应对各种挑战
已发布 6月 24, 2024
点击板
Fingerprint 3 Click
开发板
Fusion for Tiva v8
编译器
NECTO Studio
微控制器单元
TM4C1294NCZAD
创建一个高效的访问控制应用程序,该应用程序将包含一个身份验证解决方案。
A
A
硬件概览
它是如何工作的?
Fingerprint 3 Click 是一个适配器 Click board™,它简化了扩展板与 mikroBUS™ 插槽的连接。这个 Click board™ 是一个小尺寸 PCB,可以像其他 Click board™ 一样连接到 mikroBUS™ 插槽,其上有一个 1x6 1.0mm 间距的垂直型线对板连接器。每个针脚对应于 mikroBUS™ 插槽上的一个针脚,如 UART 线路(TX,RX)、3V3 电源、指纹检测信号、GROW R503 模块的环形 LED 使能和地线。这个 Click board™ 允许轻松访问和操作针脚,同时始终保持完美的连接质量。指纹处理包括两个部分:指纹录入和指纹匹配。第一步是初始化所有必要的驱动程序、外设和针脚。上电时,初始化大约需要 200 毫秒;在此期
间,模块无法接受任何命令。接下来是检查传感器并验证模块密码,如果一切正确,则开始新的指纹图案录入。用户需要输入手指两次。系统将处理两次指纹图像,根据处理结果生成指纹模板并存储模板。在匹配时,用户通过光学传感器输入指纹,系统将生成指纹模板并与指纹库中的模板进行比较。在两种情况下,系统都会返回匹配结果,成功或失败。这可以在示例代码中看到,示例代码包含易于使用的函数,可以作为进一步开发的参考。Fingerprint 3 Click 使用 UART 接口与 MCU 通信,默认波特率为 57600bps 数据传输,而这个 Click board™ 上的 GPIO 针脚用于指纹检测和环形指示灯 LED 使能。标记为 VD 的环形指示灯
LED 可以通过切换路由到 mikroBUS™ 上 RST 针脚的信号来启用,而路由到 mikroBUS™ 上 INT 针脚的信号表示中断,并指示模块上的指纹检测。当指示灯显示紫色时,模块处于待机模式,等待手指按下。除了紫色外,模块还可以显示蓝色或红色,指示指纹匹配的正确性(蓝色表示找到匹配,红色表示未找到匹配)。这个 Click board™ 只能在 3.3V 逻辑电压水平下操作。使用不同逻辑电平的 MCU 之前,必须进行适当的逻辑电平转换。然而,Click board™ 附带一个包含函数和示例代码的库,可以作为进一步开发的参考。
功能概述
开发板
Fusion for TIVA v8 是一款专为快速开发嵌入式应用的需求而特别设计的开发板。它支持广泛的微控制器,如不同的32位ARM® Cortex®-M基础MCUs,来自Texas Instruments,无论它们的引脚数量如何,并且具有一系列独特功能,例如首次通过WiFi网络实现的嵌入式调试器/程序员。开发板布局合理,设计周到,使得最终用户可以在一个地方找到所有必要的元素,如开关、按钮、指示灯、连接器等。得益于创新的制造技术,Fusion for TIVA v8 提供了流畅而沉浸式的工作体验,允许在任何情况下、任何地方、任何
时候都能访问。Fusion for TIVA v8开发板的每个部分都包含了使同一板块运行最高效的必要组件。一个先进的集成CODEGRIP程序/调试模块提供许多有价值的编程/调试选项,包括对JTAG、SWD和SWO Trace(单线输出)的支持,并与Mikroe软件环境无缝集成。此外,它还包括一个干净且调节过的开发板电源供应模块。它可以使用广泛的外部电源,包括电池、外部12V电源供应和通过USB Type-C(USB-C)连接器的电源。通信选项如USB-UART、USB HOST/DEVICE、CAN(如果MCU卡支持的话)和以
太网也包括在内。此外,它还拥有广受好评的 mikroBUS™标准,为MCU卡提供了标准化插座(SiBRAIN标准),以及两种显示选项,用于TFT板线产品和基于字符的LCD。Fusion for TIVA v8 是Mikroe快速开发生态系统的一个组成部分。它由Mikroe软件工具原生支持,得益于大量不同的Click板™(超过一千块板),其数量每天都在增长,它涵盖了原型制作和开发的许多方面。
微控制器概述
MCU卡片 / MCU
类型
8th Generation
建筑
ARM Cortex-M4
MCU 内存 (KB)
1024
硅供应商
Texas Instruments
引脚数
212
RAM (字节)
262144
你完善了我!
配件
指纹传感器带双色LED环(GROW R503)是一种带有双色环指示灯的电容指纹传感器模块扫描仪。该模块设计为直径为28mm的圆形。值得一提的是,该模块集成了图像采集和算法芯片。GROW R503模块具有图像缓冲区和六个特征文件缓冲区。一个重要提示是,所有缓冲区内容在断电后不会保存。指纹图案模板可以由2-6个特征文件组成。如果复合模板具有更多的特征文件,指纹图案模板的质量会更好。该模块的外壳防尘但不防水,环形指示灯由命令控制,具有高识别率,并能灵活适应不同的手指条件,无论是干燥、潮湿,还是不同年龄的人。该模块可以连接到Fingerprint 3 Click或任何具有1.0mm间距垂直类型线对板连接器的产品,以及合适类型的通信接口。
使用的MCU引脚
mikroBUS™映射器
NC
NC
AN
Ring Indicator LED Enable
PB6
RST
NC
NC
CS
NC
NC
SCK
NC
NC
MISO
NC
NC
MOSI
Power Supply
3.3V
3.3V
Ground
GND
GND
NC
NC
PWM
Fingerprint Detection
PB4
INT
UART TX
PA1
TX
UART RX
PA0
RX
NC
NC
SCL
NC
NC
SDA
NC
NC
5V
Ground
GND
GND
1
“仔细看看!”
Click board™ 原理图
一步一步来
项目组装
从选择您的开发板和Click板™开始。以Fusion for Tiva v8作为您的开发板开始
实时跟踪您的结果
应用程序输出
1. 应用程序输出 - 在调试模式下,“应用程序输出”窗口支持实时数据监控,直接提供执行结果的可视化。请按照提供的教程正确配置环境,以确保数据正确显示。
2. UART 终端 - 使用UART Terminal通过USB to UART converter监视数据传输,实现Click board™与开发系统之间的直接通信。请根据项目需求配置波特率和其他串行设置,以确保正常运行。有关分步设置说明,请参考提供的教程。
3. Plot 输出 - Plot功能提供了一种强大的方式来可视化实时传感器数据,使趋势分析、调试和多个数据点的对比变得更加直观。要正确设置,请按照提供的教程,其中包含使用Plot功能显示Click board™读数的分步示例。在代码中使用Plot功能时,请使用以下函数:plot(insert_graph_name, variable_name);。这是一个通用格式,用户需要将“insert_graph_name”替换为实际图表名称,并将“variable_name”替换为要显示的参数。
软件支持
库描述
该库包含 Fingerprint 3 Click 驱动程序的 API。
关键功能:
fingerprint3_parser_rsp- 响应解析函数。fingerprint3_byte_ready- 检查是否接收到新字节。fingerprint3_uart_write- 串口写函数。
开源
代码示例
完整的应用程序代码和一个现成的项目可以通过NECTO Studio包管理器直接安装到NECTO Studio。 应用程序代码也可以在MIKROE的GitHub账户中找到。
/*!
* \file
* \brief Fingerprint 3 Click example
*
* # Description
* This example reads and processes data from Fingerprint 3 Clicks.
*
* The demo application is composed of two sections :
*
* ## Application Init
* Initializes the driver, configures the sensor, and enrolls fingerprints.
*
* ## Application Task
* Takes an image of the finger, then checks if there's a fingerprint in the library that matches the
* one it has just read. All data is being logged on the USB UART.
*
* ## Additional Function
* - static void display_error ( uint8_t *message )
* - static void display_full_rsp ( fingerprint3_t *ctx )
* - static void search_finger( fingerprint3_t *ctx )
* - static void match_finger( fingerprint3_t *ctx, uint16_t location )
* - static uint8_t enroll_finger( fingerprint3_t *ctx, uint16_t location, uint8_t features )
*
* \author MikroE Team
*
*/
// ------------------------------------------------------------------- INCLUDES
#include "board.h"
#include "log.h"
#include "fingerprint3.h"
#include "string.h"
// ------------------------------------------------------------------ VARIABLES
#define LOCATION_IN_LIBRARY 1 // Location in flash where the fingerprint template will be stored.
#define NUMBER_OF_FINGERPRINTS 2 // Number of fingerprints for enrolling.
#define NUMBER_OF_IMAGES 3 // Number of images it will take for a single fingerprint template.
static fingerprint3_t fingerprint3;
static log_t logger;
uint8_t package_content[ FINGERPRINT3_MAX_PACKAGE_LENGTH ];
uint8_t error_check = 0;
// ------------------------------------------------------- ADDITIONAL FUNCTIONS
/**
* @brief Display error function.
*
* @param message Input string.
*
* @details This function concatenates status of response to the input string and prints it on the USB UART.
*/
static void display_error ( uint8_t *message );
/**
* @brief Display full response function.
*
* @param ctx Click object.
*
* @details This function parses and displays full response to the previously sent command on the USB UART.
*/
static void display_full_rsp ( fingerprint3_t *ctx );
/**
* @brief Search finger function.
*
* @param ctx Click object.
*
* @details This function searches the whole finger library for the template that matches the one
* it stores in char_buffer 1. All data is being logged on the USB UART.
*/
static void search_finger( fingerprint3_t *ctx );
/**
* @brief Match finger function.
*
* @param ctx Click object.
* @param location Location in library.
*
* @details This function checks if the template stored at the desired location matches the fingerprint
* it reads. All data is being logged on the USB UART.
*/
static void match_finger( fingerprint3_t *ctx, uint16_t location );
/**
* @brief Enroll finger function.
*
* @param ctx Click object.
* @param location Location in library where the fingerprint template will be stored.
* @param features Number of fingerprint images it will combine in a template.
*
* @details This function enrolls the fingerprint, creates a template combining the taken images and
* stores it at the desired location. All data is being logged on the USB UART.
*/
static uint8_t enroll_finger( fingerprint3_t *ctx, uint16_t location, uint8_t features );
// ------------------------------------------------------ APPLICATION FUNCTIONS
void application_init ( void )
{
log_cfg_t log_cfg;
fingerprint3_cfg_t cfg;
/**
* Logger initialization.
* Default baud rate: 115200
* Default log level: LOG_LEVEL_DEBUG
* @note If USB_UART_RX and USB_UART_TX
* are defined as HAL_PIN_NC, you will
* need to define them manually for log to work.
* See @b LOG_MAP_USB_UART macro definition for detailed explanation.
*/
LOG_MAP_USB_UART( log_cfg );
log_init( &logger, &log_cfg );
log_info( &logger, "---- Application Init ----" );
Delay_ms ( 100 );
// Click initialization.
fingerprint3_cfg_setup( &cfg );
FINGERPRINT3_MAP_MIKROBUS( cfg, MIKROBUS_1 );
err_t init_flag = fingerprint3_init( &fingerprint3, &cfg );
if ( init_flag == UART_ERROR )
{
log_error( &logger, " Application Init Error. " );
log_info( &logger, " Please, run program again... " );
for ( ; ; );
}
Delay_ms ( 100 );
error_check = fingerprint3_set_config ( &fingerprint3, FINGERPRINT3_DEFAULT_ADDRESS,
FINGERPRINT3_DEFAULT_PASSWORD );
display_error( "Set Config" );
Delay_ms ( 500 );
error_check = fingerprint3_soft_reset ( &fingerprint3 );
display_error( "Soft Reset" );
Delay_ms ( 500 );
error_check = fingerprint3_check_sensor ( &fingerprint3 );
display_error( "Check Sensor" );
Delay_ms ( 500 );
error_check = fingerprint3_empty_library ( &fingerprint3 );
display_error( "Empty the Library" );
Delay_ms ( 500 );
uint8_t cnt = 0;
do
{
log_printf( &logger, " >>> Register fingerprint %u of %u <<<\r\n", ( uint16_t ) cnt + 1,
( uint16_t ) NUMBER_OF_FINGERPRINTS );
log_printf( &logger, "--------------------------------- \r\n" );
error_check = enroll_finger ( &fingerprint3, LOCATION_IN_LIBRARY + cnt, NUMBER_OF_IMAGES );
display_error( "Enroll finger" );
if ( FINGERPRINT3_OK != error_check )
{
log_printf( &logger, " Please enroll your fingerprint again.\r\n" );
log_printf( &logger, "--------------------------------- \r\n" );
}
else
{
cnt++;
}
Delay_ms ( 1000 );
}
while ( FINGERPRINT3_OK != error_check || cnt != NUMBER_OF_FINGERPRINTS );
}
void application_task ( void )
{
search_finger( &fingerprint3 );
}
int main ( void )
{
/* Do not remove this line or clock might not be set correctly. */
#ifdef PREINIT_SUPPORTED
preinit();
#endif
application_init( );
for ( ; ; )
{
application_task( );
}
return 0;
}
static void display_error ( uint8_t *message )
{
log_printf( &logger, " %s: ", message );
if ( FINGERPRINT3_OK == error_check )
{
log_printf( &logger, "DONE!\r\n" );
}
else
{
log_printf( &logger, "FAIL! [ERROR] Num: 0x%.2X\r\n", ( uint16_t ) error_check );
}
log_printf( &logger, "--------------------------------- \r\n" );
}
static void display_full_rsp ( fingerprint3_t *ctx )
{
log_printf( &logger, "* Header : 0x%.4X\r\n", ctx->rsp.header );
log_printf( &logger, "* Address : 0x%.8LX\r\n", ctx->rsp.addr );
log_printf( &logger, "* Package identifier: 0x%.2X\r\n", ( uint16_t ) ctx->rsp.pkg_id );
log_printf( &logger, "* Package length : 0x%.4X\r\n", ctx->rsp.pkg_len );
log_printf( &logger, "* Confirmation code :" );
if ( ctx->rsp.pkg_content[ 0 ] == FINGERPRINT3_CONF_CMD_OK )
{
log_printf( &logger, " OK!\r\n" );
}
else
{
log_error( &logger, " Num: 0x%.2X", ( uint16_t ) ctx->rsp.pkg_content[ 0 ] );
}
if ( ctx->rsp.pkg_len > 3 )
{
log_printf( &logger, "* Package Content: " );
for ( uint16_t n_cnt = 1; n_cnt < ctx->rsp.pkg_len - 2; n_cnt++ )
{
log_printf( &logger, "0x%.2X ", ( uint16_t ) ctx->rsp.pkg_content[ n_cnt ] );
}
log_printf( &logger, "\r\n" );
}
log_printf( &logger, "* Checksum : 0x%.4X \r\n", ctx->rsp.checksum );
}
static void search_finger( fingerprint3_t *ctx )
{
log_printf( &logger, " >>> Searching Fingerprints <<< \r\n" );
log_printf( &logger, "--------------------------------- \r\n" );
fingerprint3_aura_control ( &fingerprint3, FINGERPRINT3_AURA_CTRL_BREATH, 0xFF,
FINGERPRINT3_AURA_LED_PURPLE, FINGERPRINT3_AURA_TIME_INFINITE );
log_printf( &logger, " Put your finger on the sensor \r\n" );
log_printf( &logger, "--------------------------------- \r\n" );
while ( fingerprint3_finger_indicator( &fingerprint3 ) == FINGERPRINT3_DETECT_NO_FINGER );
while ( FINGERPRINT3_OK != fingerprint3_aura_control ( &fingerprint3, FINGERPRINT3_AURA_CTRL_OFF, 0xFF,
FINGERPRINT3_AURA_LED_PURPLE,
FINGERPRINT3_AURA_TIME_INFINITE ) )
{
Delay_ms ( 100 );
}
for ( ; ; )
{
error_check = fingerprint3_take_image ( &fingerprint3 );
if ( FINGERPRINT3_OK != error_check )
{
display_error( "Take Image" );
Delay_ms ( 1000 );
continue;
}
error_check = fingerprint3_extract_features ( &fingerprint3, 1 );
if ( FINGERPRINT3_OK != error_check )
{
display_error( "Extract Features" );
Delay_ms ( 1000 );
continue;
}
break;
}
uint16_t match_score, location;
error_check = fingerprint3_search_finger ( &fingerprint3, 1, &location, &match_score );
if ( FINGERPRINT3_OK == error_check )
{
log_printf( &logger, " >>>>> FINGERPRINT MATCH <<<<<< \r\n\r\n" );
log_printf( &logger, " Location: 0x%.4X Match score : %u\r\n", location, match_score );
log_printf( &logger, "---------------------------------\r\n" );
fingerprint3_aura_control ( &fingerprint3, FINGERPRINT3_AURA_CTRL_BREATH, 0x80,
FINGERPRINT3_AURA_LED_BLUE, 1 );
}
else if ( FINGERPRINT3_CONF_NOT_FOUND == error_check )
{
log_printf( &logger, " >>>>> NO MATCH in library <<<<<<\r\n\r\n" );
log_printf( &logger, "---------------------------------\r\n" );
fingerprint3_aura_control ( &fingerprint3, FINGERPRINT3_AURA_CTRL_BREATH, 0x80,
FINGERPRINT3_AURA_LED_RED, 1 );
}
else
{
display_error( "Search Finger" );
fingerprint3_aura_control ( &fingerprint3, FINGERPRINT3_AURA_CTRL_BREATH, 0x80,
FINGERPRINT3_AURA_LED_RED, 1 );
}
Delay_ms ( 100 );
log_printf( &logger, " Lift the finger of the sensor.\r\n" );
log_printf( &logger, "--------------------------------- \r\n" );
error_check = fingerprint3_take_image ( &fingerprint3 );
while ( error_check != FINGERPRINT3_CONF_NO_FINGER )
{
Delay_ms ( 100 );
error_check = fingerprint3_take_image ( &fingerprint3 );
}
while ( fingerprint3_finger_indicator( &fingerprint3 ) != FINGERPRINT3_DETECT_NO_FINGER );
Delay_ms ( 1000 );
}
static void match_finger( fingerprint3_t *ctx, uint16_t location )
{
error_check = fingerprint3_load_template ( &fingerprint3, 2, location );
display_error( "Load Template" );
Delay_ms ( 100 );
log_printf( &logger, " >>> Matching Fingerprints <<< \r\n" );
log_printf( &logger, "--------------------------------- \r\n" );
fingerprint3_aura_control ( &fingerprint3, FINGERPRINT3_AURA_CTRL_BREATH, 0xFF,
FINGERPRINT3_AURA_LED_PURPLE, FINGERPRINT3_AURA_TIME_INFINITE );
log_printf( &logger, " Put your finger on the sensor \r\n" );
log_printf( &logger, "--------------------------------- \r\n" );
while ( fingerprint3_finger_indicator( &fingerprint3 ) == FINGERPRINT3_DETECT_NO_FINGER );
while ( FINGERPRINT3_OK != fingerprint3_aura_control ( &fingerprint3, FINGERPRINT3_AURA_CTRL_OFF, 0xFF,
FINGERPRINT3_AURA_LED_PURPLE,
FINGERPRINT3_AURA_TIME_INFINITE ) )
{
Delay_ms ( 100 );
}
for ( ; ; )
{
error_check = fingerprint3_take_image ( &fingerprint3 );
if ( FINGERPRINT3_OK != error_check )
{
display_error( "Take Image" );
Delay_ms ( 1000 );
continue;
}
error_check = fingerprint3_extract_features ( &fingerprint3, 3 );
if ( FINGERPRINT3_OK != error_check )
{
display_error( "Extract Features" );
Delay_ms ( 1000 );
continue;
}
break;
}
uint16_t match_score;
error_check = fingerprint3_match_finger ( &fingerprint3, &match_score );
if ( FINGERPRINT3_OK == error_check )
{
log_printf( &logger, " >>>>> FINGERPRINT MATCH <<<<<< \r\n\r\n" );
log_printf( &logger, " Match score : %u\r\n", match_score );
log_printf( &logger, "---------------------------------\r\n" );
fingerprint3_aura_control ( &fingerprint3, FINGERPRINT3_AURA_CTRL_BREATH, 0x80,
FINGERPRINT3_AURA_LED_BLUE, 1 );
}
else if ( FINGERPRINT3_CONF_NO_MATCH == error_check )
{
log_printf( &logger, " >>>>> NO MATCH at location: 0x%.4X <<<<<<\r\n\r\n", location );
log_printf( &logger, "---------------------------------\r\n" );
fingerprint3_aura_control ( &fingerprint3, FINGERPRINT3_AURA_CTRL_BREATH, 0x80,
FINGERPRINT3_AURA_LED_RED, 1 );
}
else
{
display_error( "Match Finger" );
fingerprint3_aura_control ( &fingerprint3, FINGERPRINT3_AURA_CTRL_BREATH, 0x80,
FINGERPRINT3_AURA_LED_RED, 1 );
}
Delay_ms ( 100 );
log_printf( &logger, " Lift the finger of the sensor.\r\n" );
log_printf( &logger, "--------------------------------- \r\n" );
error_check = fingerprint3_take_image ( &fingerprint3 );
while ( error_check != FINGERPRINT3_CONF_NO_FINGER )
{
Delay_ms ( 100 );
error_check = fingerprint3_take_image ( &fingerprint3 );
}
while ( fingerprint3_finger_indicator( &fingerprint3 ) != FINGERPRINT3_DETECT_NO_FINGER );
Delay_ms ( 1000 );
}
static uint8_t enroll_finger( fingerprint3_t *ctx, uint16_t location, uint8_t features )
{
for ( uint8_t cnt = 1; cnt <= features; )
{
log_printf( &logger, " >>> Taking image %u of %u <<<\r\n", ( uint16_t ) cnt,
( uint16_t ) features );
log_printf( &logger, "--------------------------------- \r\n" );
log_printf( &logger, " Put your finger on the sensor \r\n" );
log_printf( &logger, "--------------------------------- \r\n" );
fingerprint3_aura_control ( &fingerprint3, FINGERPRINT3_AURA_CTRL_BREATH, 0xFF,
FINGERPRINT3_AURA_LED_PURPLE, FINGERPRINT3_AURA_TIME_INFINITE );
while ( fingerprint3_finger_indicator( &fingerprint3 ) == FINGERPRINT3_DETECT_NO_FINGER );
while ( FINGERPRINT3_OK != fingerprint3_aura_control ( &fingerprint3, FINGERPRINT3_AURA_CTRL_OFF, 0xFF,
FINGERPRINT3_AURA_LED_PURPLE,
FINGERPRINT3_AURA_TIME_INFINITE ) )
{
Delay_ms ( 100 );
}
error_check = fingerprint3_take_image ( &fingerprint3 );
display_error( "Take Image" );
if ( FINGERPRINT3_OK == error_check )
{
Delay_ms ( 100 );
error_check = fingerprint3_extract_features ( &fingerprint3, cnt );
display_error( "Extract Features" );
if ( FINGERPRINT3_OK == error_check )
{
cnt++;
}
Delay_ms ( 100 );
fingerprint3_aura_control ( &fingerprint3, FINGERPRINT3_AURA_CTRL_BREATH, 0x80,
FINGERPRINT3_AURA_LED_BLUE, 1 );
Delay_ms ( 100 );
}
log_printf( &logger, " Lift the finger of the sensor.\r\n" );
log_printf( &logger, "--------------------------------- \r\n" );
error_check = fingerprint3_take_image ( &fingerprint3 );
while ( error_check != FINGERPRINT3_CONF_NO_FINGER )
{
Delay_ms ( 100 );
error_check = fingerprint3_take_image ( &fingerprint3 );
}
while ( fingerprint3_finger_indicator( &fingerprint3 ) != FINGERPRINT3_DETECT_NO_FINGER );
Delay_ms ( 100 );
}
error_check = fingerprint3_create_template ( &fingerprint3 );
display_error( "Create Template" );
if ( FINGERPRINT3_OK != error_check )
{
return error_check;
}
Delay_ms ( 100 );
error_check = fingerprint3_store_template ( &fingerprint3, 1, location );
display_error( "Store Template" );
if ( FINGERPRINT3_OK != error_check )
{
return error_check;
}
Delay_ms ( 100 );
return FINGERPRINT3_OK;
}
// ------------------------------------------------------------------------ END
