FPGA讀取OV5640攝像頭數(shù)據(jù)并通過VGA或LCD屏顯示輸出的Verilog邏輯源碼Quartus工程文件+文檔說明,F(xiàn)PGA型號Cyclone4E系列中的EP4CE6F17C8,Quartus版本17.1。module top( input clk, input rst_n, output cmos_scl, //cmos i2c clock inout cmos_sda, //cmos i2c data input cmos_vsync, //cmos vsync input cmos_href, //cmos hsync refrence,data valid input cmos_pclk, //cmos pxiel clock output cmos_xclk, //cmos externl clock input [7:0] cmos_db, //cmos data output cmos_rst_n, //cmos RESET output cmos_pwdn, //cmos power down output vga_out_hs, //vga horizontal synchronization output vga_out_vs, //vga vertical synchronization output[4:0] vga_out_r, //vga red output[5:0] vga_out_g, //vga green output[4:0] vga_out_b, //vga blue output sdram_clk, //sdram clock output sdram_cke, //sdram clock enable output sdram_cs_n, //sdram chip select output sdram_we_n, //sdram write enable output sdram_cas_n, //sdram column address strobe output sdram_ras_n, //sdram row address strobe output[1:0] sdram_dqm, //sdram data enable output[1:0] sdram_ba, //sdram bank address output[12:0] sdram_addr, //sdram address inout[15:0] sdram_dq //sdram data);
上傳時間: 2021-12-18
上傳用戶:
1. Scope ......................................................................................................................................................................... 12. DDR4 SDRAM Package Pinout and Addressing ....................................................................................................... 22.1 DDR4 SDRAM Row for X4,X8 and X16 ................................................................................................................22.2 DDR4 SDRAM Ball Pitch........................................................................................................................................22.3 DDR4 SDRAM Columns for X4,X8 and X16 ..........................................................................................................22.4 DDR4 SDRAM X4/8 Ballout using MO-207......................................................................................................... 22.5 DDR4 SDRAM X16 Ballout using MO-207.............................................................................................................32.6 Pinout Description ..................................................................................................................................................52.7 DDR4 SDRAM Addressing.....................................................................................................................................73. Functional Description ...............................................................................................................................................83.1 Simplified State Diagram ....................................................................................................................................83.2 Basic Functionality..................................................................................................................................................93.3 RESET and Initialization Procedure .....................................................................................................................103.3.1 Power-up Initialization Sequence .............................................................................................................103.3.2 RESET Initialization with Stable Power ......................................................................................................113.4 Register Definition ................................................................................................................................................123.4.1 Programming the mode registers .............................................................................................................123.5 Mode Register ......................................................................................................................................................134. DDR4 SDRAM Command Description and Operation ............................................................................................. 244.1 Command Truth Table ..........................................................................................................................................244.2 CKE Truth Table ...................................................................................................................................................254.3 Burst Length, Type and Order ..............................................................................................................................264.3.1 BL8 Burst order with CRC Enabled .........................................................................................................264.4 DLL-off Mode & DLL on/off Switching procedure ................................................................................................274.4.1 DLL on/off switching procedure ...............................................................................................................274.4.2 DLL “on” to DLL “off” Procedure ..............................................................................................................274.4.3 DLL “off” to DLL “on” Procedure ..............................................................................................................284.5 DLL-off Mode........................................................................................................................................................294.6 Input Clock Frequency Change ............................................................................................................................304.7 Write Leveling.......................................................................................................................................................314.7.1 DRAM setting for write leveling & DRAM termination function in that mode ............................................324.7.2 Procedure Description .............................................................................................................................334.7.3 Write Leveling Mode Exit .........................................................................................................................34
標簽: DDR4
上傳時間: 2022-01-09
上傳用戶:
高通(Qualcomm)藍牙芯片QCC5151_硬件設計詳細指導書(官方內部培訓手冊)共52頁其內容是針對硬件設計、部分重要元器件選擇(ESD,F(xiàn)ilter)及走線注意事項的詳細說明。2 Power management 2.1 SMPS 2.1.1 Components specification 2.1.2 Input power supply selection 2.1.3 Minimize SMPS EMI emissions 2.1.4 Internal LDOs and digital core decoupling 2.1.5 Powering external components 2.2 Charger 2.2.1 Charger connections.2.2.2 General charger operation2.2.3 Temperature measurement during charging 2.3 SYS_CTRL 3 Bluetooth radio3.1 RF PSU component choice 3.2 RF band-pass filter3.3 Layout (天線 走線的注意事項)4 Audio4.1 Audio bypass capacitors 4.2 Earphone speaker output4.3 Line/Mic input 4.4 Headphone output optimizition5 LED pads 5.1 LED driver 5.2 Digital/Button input 5.3 Analog input5.4 Disabled 6 RESET pin (RESET#)7 QSPIinterface 8 USB interfaces 8.1 USB device port8.1.1 USB connections8.1.2 Layout notes8.1.3 USB charger detection
上傳時間: 2022-01-24
上傳用戶:XuVshu
ADS8329 Verilog fpga 驅動源碼,2.7V 至 5.5V 16 位 1MSPS 串行模數(shù)轉換器 ADC芯片ADS8329數(shù)據(jù)采集的verilog代碼,已經(jīng)用在工程中,可以做為你的設計參考。( input clock, input timer_clk_r, input RESET, output reg sample_over, output reg ad_convn, input ad_eocn, output reg ad_csn, output reg ad_clk, input ad_dout, output reg ad_din, output reg [15:0] ad_data_lock);reg [15:0] ad_data_old;reg [15:0] ad_data_new; reg [19:0] ad_data_temp; reg [15:0] ad_data;reg [4:0] ad_data_cnt;reg [4:0] ad_spi_cnt; reg [5:0] time_dly_cnt; parameter [3:0] state_mac_IDLE = 0, state_mac_0 = 1, state_mac_1 = 2, state_mac_2 = 3, state_mac_3 = 4, state_mac_4 = 5, state_mac_5 = 6, state_mac_6 = 7, state_mac_7 = 8, state_mac_8 = 9, state_mac_9 = 10, state_mac_10 = 11, state_mac_11 = 12, state_mac_12 = 13, state_mac_13 = 14, state_mac_14 = 15; reg [3:0] state_curr;reg [3:0] state_next;
上傳時間: 2022-01-30
上傳用戶:1208020161
verilog實現(xiàn)I2C通信的slave模塊源碼狀態(tài)機設位計可做I2C接口的仿真模型//`timescale 1ns/1psmodule I2C_slv (input [6:0] slv_id,input RESET,input scl_i, //I2C clkinput sda_i, //I2C data ininput [7:0] I2C_RDDATA,////////////////////////output reg sda_o, //I2C data outoutput reg reg_w, //reg write enable pulse (1T of scl_i)output reg [7:0] I2C_ADDR,output reg [7:0] I2C_DATA); parameter ST_ADDR = 4'd0; parameter ST_ACK = 4'd1; parameter ST_WDATA1 = 4'd2; parameter ST_WACK1 = 4'd3; parameter ST_WDATA2 = 4'd4; parameter ST_WACK2 = 4'd5; parameter ST_WDATA3 = 4'd6; parameter ST_WACK3 = 4'd7; parameter ST_RDATA1 = 4'd8; parameter ST_RACK1 = 4'd9; parameter ST_IDLE = 4'd15;//---------------------------------------------------------------------------// Signal Declaration//--------------------------------------------------------------------------- reg i2c_start_n, i2c_stop_n; //wire RESET_scl; wire i2c_stp_n, i2c_RESET; reg [3:0] i2c_cs, i2c_ns; reg [3:0] cnt_bit; reg [7:0] d_vec; reg i2c_rd, i2c_ack; reg [7:0] I2C_RDDATA_latch;
上傳時間: 2022-02-03
上傳用戶:
STM32L053C8T6數(shù)據(jù)手冊Features ? Ultra-low-power platform – 1.65 V to 3.6 V power supply – -40 to 125 °C temperature range – 0.27 μA Standby mode (2 wakeup pins) – 0.4 μA Stop mode (16 wakeup lines) – 0.8 μA Stop mode + RTC + 8 KB RAM retention – 139 μA/MHz Run mode at 32 MHz – 3.5 μs wakeup time (from RAM) – 5 μs wakeup time (from Flash) ? Core: ARM? 32-bit Cortex?-M0+ with MPU – From 32 kHz up to 32 MHz max. – 0.95 DMIPS/MHz ? RESET and supply management – Ultra-safe, low-power BOR (brownout RESET) with 5 selectable thresholds – Ultralow power POR/PDR – Programmable voltage detector (PVD) ? Clock sources – 1 to 25 MHz crystal oscillator – 32 kHz oscillator for RTC with calibration – High speed internal 16 MHz factory-trimmed RC (+/- 1%) – Internal low-power 37 kHz RC – Internal multispeed low-power 65 kHz to 4.2 MHz RC – PLL for CPU clock ? Pre-programmed bootloader – USART, SPI supported ? Development support – Serial wire debug supported ? Up to 51 fast I/Os (45 I/Os 5V tolerant) ? Memories – Up to 64 KB Flash with ECC – 8KB RAM – 2 KB of data EEPROM with ECC – 20-byte backup register
標簽: stm32l053c8t6
上傳時間: 2022-02-06
上傳用戶:
該問題由某客戶提出,發(fā)生在 STM32F103VBT6 器件上。據(jù)其工程師講述:在為 STM32 調試軟件過程中,遇到了一個怪現(xiàn)象:有如表(一)所示的一段程序中,KeyIn 是一個全局變量。當有按鍵按下時,鍵盤的中斷服務程序會將對應的鍵值放入其中,當按鍵釋放后,鍵盤中斷服務程序則把 RESET 值放入該變量。行(1)的條件語句在主程序中,檢測有無按鍵按下,并處理。行(2)則是等待按鍵釋放。調試時,在行(1)和行(2)處各設置一個斷點,然后全速運行程序。當程序停在行(1)時按下按鍵,繼續(xù)全速運行程序。當程序
標簽: while循環(huán)
上傳時間: 2022-02-21
上傳用戶:
電子書-RTL Design Style Guide for Verilog HDL540頁A FF having a fixed input value is generated from the description in the upper portion of Example 2-21. In this case, ’0’ is output when the RESET signal is asynchronously input, and ’1’ is output when the START signal rises. Therefore, the FF data input is fixed at the power supply, since the typical value ’1’ is output following the rise of the START signal. When FF input values are fixed, the fixed inputs become untestable and the fault detection rate drops. When implementing a scan design and converting to a scan FF, the scan may not be executed properl not be executed properly, so such descriptions , so such descriptions are not are not recommended. recommended.[1] As in the lower part of Example 2-21, be sure to construct a synchronous type of circuit and ensure that the clock signal is input to the clock pin of the FF. Other than the sample shown in Example 2-21, there are situations where for certain control signals, those that had been switched due to the conditions of an external input will no longer need to be switched, leaving only a FF. If logic exists in a lower level and a fixed value is input from an upper level, the input value of the FF may also end up being fixed as the result of optimization with logic synthesis tools. In a situation like this, while perhaps difficult to completely eliminate, the problem should be avoided as much as possible.
標簽: RTL verilog hdl
上傳時間: 2022-03-21
上傳用戶:canderile
產(chǎn)品特性介紹AFE 特性■ 集成硬件過充電保護功能 - 獨立PF管腳輸出低電平■ 集成硬件放電短路保護功能■ 集成平衡開關■ 集成充電器檢測功能■ 集成負載檢測功能■ 集成充放電狀態(tài)檢測功能■ 集成小電流喚醒功能■ 集成WatchDog/RESET功能■ 集成Alarm功能■ 集成負端NMOS驅動(放電PWM調控)■ 支持電芯亂序上電■ 2通道溫度采集■ 12-bit VADC電壓采集■ 13-bit ?-? CADC電流采集■ 集成LDO模塊:3.3V/25mA@MAX■ 集成TWI通訊(CRC-8,10KHz~400KHz)■ 低功耗模式 - 正常模式≤70uA@25℃ - PowerDown模式≤1uA@25℃■ 工作電壓 - 8V~50V(VBAT端口)MCU 特性■ 基于8051指令流水線結構的8位單片機 - CPU機器周期:1個振蕩周期■ Flash ROM:64K字節(jié)■ RAM:內部256字節(jié),外部2816字節(jié)■ 類EEPROM:最大4096字節(jié)(代碼選項可選)■ 內部RC振蕩器:24MHz(±1%)/128K(±10%)■ I/O內建上拉電阻(30kΩ)■ 1個16位定時器/計數(shù)器T3■ 3個16位PCA0、PCA1、PCA2各含2個比較/捕捉單元■ 3路12位PWM定時器■ SPI接口(主從模式)■ TWI接口(主從模式)■ 內建數(shù)字邏輯可配置模塊(LCM)■ 3路增強型UART(3V/5V通訊)(自帶波特率的uart通訊)■ 11通道12位模數(shù)轉換器(ADC)■ 內建CRC校驗模塊,校驗空間大小可選■ 看門狗定時器(WDT)■ 預熱計數(shù)器■ 中斷源 - 定時器3,PCA0-2,外部中斷1-2,外部中斷4:6輸入 - ADC,EUART,SPI,PWM,SCM,CRC,TWI,LPD■ 低功耗工作模式:空閑模式/掉電模式■ 工作電壓:VDD = 2.7V - 5.5V■ 封裝: - LQFP 64L
上傳時間: 2022-03-24
上傳用戶:qingfengchizhu
產(chǎn)品型號:VKL128 產(chǎn)品品牌:永嘉微電/VINKA 封裝形式:LQFP44 產(chǎn)品年份:新年份 聯(lián) 系 人:陳銳鴻 聯(lián) 系 QQ:3618885898 聯(lián)系手機:18824662436 VKL128概述: VKL128是字段式液晶顯示驅動芯片。 功能特點: ★ 液晶驅動輸出: Common 輸出4線;Segment 輸出32線 ★ 內置Display data RAM (DDRAM) ★ 內置RAM容量:32*4 =128 bit ★ 液晶驅動的電源電路1/2 ,1/3 Bias ,1/4 Duty ★ 內置Buffer AMP ★ I2C串行接口(SCL, SDA) ★ 內置振蕩電路 ★ 不需要外圍部件 ★ 低功耗設計 ★ 搭載等待模式 ★ 內置Power-on RESET電路 ★ 搭載閃爍功能 ★ 工作電源電壓:2.5-5 .5V ★ 此篇產(chǎn)品敘述為功能簡介,如需要完整產(chǎn)品PDF資料可以聯(lián)系陳先生索取! LCD/LED液晶控制器及驅動器系列芯片簡介如下: 超低功耗LCD液晶控制器及驅動系列: VKL060 2.5~5.5V 15seg*4com 偏置電壓1/2 1/3 I2C通訊接口 SSOP-24 VKL128 2.5~5.5V 32seg*4com 偏置電壓1/2 1/3 I2C通訊接口 LQFP-44 VKL144A 2.5~5.5V 36seg*4com 偏置電壓1/2 1/3 I2C通訊接口 TSSOP-48 VKL144B 2.5~5.5V 36seg*4com 偏置電壓1/2 1/3 I2C通訊接口 QFN48L (6MM*6MM) RAM映射LCD控制器和驅動器系列: VK1024B 2.4V~5.2V 6seg*4com 6*3 6*2 偏置電壓1/2 1/3 S0P-16 VK1056B 2.4V~5.2V 14seg*4com 14*3 14*2 偏置電壓1/2 1/3 SOP-24/SSOP-24 VK1072B 2.4V~5.2V 18seg*4com 18*3 18*2 偏置電壓1/2 1/3 SOP-28 VK1072C 2.4V~5.2V 18seg*4com 18*3 18*2 偏置電壓1/2 1/3 SOP-28 VK1088B 2.4V~5.2V 22seg*4com 22*3 偏置電壓1/2 1/3 QFN-32L(4MM*4MM) VK0192 2.4V~5.2V 24seg*8com 偏置電壓1/4 LQFP-44 VK0256 2.4V~5.2V 32seg*8com 偏置電壓1/4 QFP-64 VK0256B 2.4V~5.2V 32seg*8com 偏置電壓1/4 LQFP-64 VK0256C 2.4V~5.2V 32seg*8com 偏置電壓1/4 LQFP-52 VK1621 2.4V~5.2V 32*4 32*3 32*2 偏置電壓1/2 1/3 LQFP44/48/SSOP48/SKY28/DICE裸片 VK1622 2.7V~5.5V 32seg*8com 偏置電壓1/4 LQFP44/48/52/64/QFP64/DICE裸片 VK1623 2.4V~5.2V 48seg*8com 偏置電壓1/4 LQFP-100/QFP-100/DICE裸片 VK1625 2.4V~5.2V 64seg*8com 偏置電壓1/4 LQFP-100/QFP-100/DICE VK1626 2.4V~5.2V 48seg*16com 偏置電壓1/5 LQFP-100/QFP-100/DICE 高抗干擾LCD液晶控制器及驅動系列: VK2C21A 2.4~5.5V 20seg*4com 16*8 偏置電壓1/3 1/4 I2C通訊接口 SOP-28 VK2C21B 2.4~5.5V 16seg*4com 12*8 偏置電壓1/3 1/4 I2C通訊接口 SOP-24 VK2C21C 2.4~5.5V 12seg*4com 8*8 偏置電壓1/3 1/4 I2C通訊接口 SOP-20 VK2C21D 2.4~5.5V 8seg*4com 4*8 偏置電壓1/3 1/4 I2C通訊接口 SOP-16 VK2C22A 2.4~5.5V 44seg*4com 偏置電壓1/2 1/3 I2C通訊接口 LQFP-52 VK2C22B 2.4~5.5V 40seg*4com 偏置電壓1/2 1/3 I2C通訊接口 LQFP-48 VK2C23A 2.4~5.5V 56seg*4com 52*8 偏置電壓1/3 1/4 I2C通訊接口 LQFP-64 VK2C23B 2.4~5.5V 36seg*8com 偏置電壓1/31/4 I2C通訊接口 LQFP-48 VK2C24 2.4~5.5V 72seg*4com 68*8 60*16 偏置電壓1/3 1/4 1/5 I2C通訊接口 LQFP-80 靜態(tài)顯示LCD液晶控制器及驅動系列: VKS118 2.4~5.2V 118seg*2com 偏置電壓 -- 4線通訊接口 LQFP-128 VKS232 2.4~5.2V 116seg*2com 偏置電壓1/1 1/2 4線通訊接口 LQFP-128 _________________________________________________________________________________________________: 內存映射的LED控制器及驅動器: VK1628 --- 通訊接口:STB/CLK/DIO 電源電壓:5V(4.5~5.5V) 驅動點陣:70/52 共陰驅動:10段7位/13段4位 共陽驅動:7段10位 按鍵:10x2 封裝SOP28 VK1629 --- 通訊接口:STB/CLK/DIN/DOUT 電源電壓:5V(4.5~5.5V) 驅動點陣:128共陰驅動:16段8位 共陽驅動:8段16位 按鍵:8x4 封裝QFP44 VK1629A --- 通訊接口:STB/CLK/DIO 電源電壓:5V(4.5~5.5V) 驅動點陣:128共陰驅動:16段8位 共陽驅動:8段16位 按鍵:--- 封裝SOP32 VK1629B --- 通訊接口:STB/CLK/DIO 電源電壓:5V(4.5~5.5V) 驅動點陣:112 共陰驅動:14段8位 共陽驅動:8段14位 按鍵:8x2 封裝SOP32 VK1629C --- 通訊接口:STB/CLK/DIO 電源電壓:5V(4.5~5.5V) 驅動點陣:120 共陰驅動:15段8位 共陽驅動:8段15位 按鍵:8x1 封裝SOP32 VK1629D --- 通訊接口:STB/CLK/DIO 電源電壓:5V(4.5~5.5V) 驅動點陣:96 共陰驅動:12段8位 共陽驅動:8段12位 按鍵:8x4 封裝SOP32 VK1640 --- 通訊接口: CLK/DIN 電源電壓:5V(4.5~5.5V) 驅動點陣:128共陰驅動:8段16位 共陽驅動:16段8位 按鍵:--- 封裝SOP28 VK1640B LED驅動IC 8×12段位 8段12位共陰 12段8位共陽 封裝SSOP24 VK1650 --- 通訊接口: SCL/SDA 電源電壓:5V(3.0~5.5V) 驅動點陣:8x16共陰驅動:8段4位 共陽驅動:4段8位 按鍵:7x4 封裝SOP16/DIP16 VK1651--- VK1651 LED驅動IC 7×4段位 7段4位共陰 7段4位共陽 7×1按鍵 封裝SOP16/DIP16 VK1668 ---通訊接口:STB/CLK/DIO 電源電壓:5V(4.5~5.5V) 驅動點陣:70/52共陰驅動:10段7位/13段4位 共陽驅動:7段10位 按鍵:10x2 封裝SOP24 VK6932 --- 通訊接口:STB/CLK/DIN 電源電壓:5V(4.5~5.5V) 驅動點陣:128共陰驅動:8段16位17.5/140mA 共陽驅動:16段8位 按鍵:--- 封裝SOP32 VK16K33 --- 通訊接口:SCL/SDA 電源電壓:5V(4.5V~5.5V) 驅動點陣:128/96/64 共陰驅動:16段8位/12段8位/8段8位 共陽驅動:8段16位/8段12位/8段8位按鍵:13x3 10x3 8x3 封裝SOP20/SOP24/SOP28 VK1616 ---是 1/5~1/8 占空比的 LED 顯示控制驅動電路,具有 7 根段輸出、4 根柵輸出,是一個由顯示存儲器、控制電路組成的高可靠性的 LED 驅動電路。串行數(shù)據(jù)通過三線串行接口輸入到 VK1616,采用SOP16/DIP16 的封裝形式 VK1618 ---是帶鍵盤掃描接口的 LED 驅動控制專用電路,內部集成有 MCU 數(shù)字接口、數(shù)據(jù)鎖存器、鍵盤掃描等電路。本產(chǎn)品主要應用于 VCR、VCD、DVD 及家庭影院等產(chǎn)品的顯示屏驅動 封裝SOP18/DIP18 VK1S68C --- LED驅動IC 10x7/13x4段位 10段7位/11段6位共陰 10x2按鍵,封裝SSOP24 VK1Q68D --- 更小體積LED驅動IC 10x7/13x4段位 10段7位/11段6位共陰 10x2按鍵,封裝QFP24 VK1S38A --- LED驅動IC 8段×8位 SSOP24L 封裝SSOP24 VK1638 ---是一種帶鍵盤掃描接口的LED(發(fā)光二極管顯示器)驅動控制專用IC,內部集成有MCU數(shù)字接口、數(shù)據(jù)鎖存器、LED驅動、鍵盤掃描等電路,封裝SOP32 觸摸觸控IC系列簡介如下: 標準觸控IC-電池供電系列: VKD223EB --- 工作電壓/電流:2.0V-5.5V/5uA-3V 感應通道數(shù):1 通訊接口 最長響應時間快速模式60mS,低功耗模式220ms 封裝:SOT23-6 VKD223B --- 工作電壓/電流:2.0V-5.5V/5uA-3V 感應通道數(shù):1 通訊接口 最長響應時間快速模式60mS,低功耗模式220ms 封裝:SOT23-6 VKD233DB --- 工作電壓/電流:2.4V-5.5V/2.5uA-3V 1感應按鍵 封裝:SOT23-6 通訊接口:直接輸出,鎖存(toggle)輸出 低功耗模式電流2.5uA-3V VKD233DH ---工作電壓/電流:2.4V-5.5V/2.5uA-3V 1感應按鍵 封裝:SOT23-6 通訊接口:直接輸出,鎖存(toggle)輸出 有效鍵最長時間檢測16S VKD233DS --- 工作電壓/電流:2.4V-5.5V/2.5uA-3V 1感應按鍵 封裝:DFN6(2*2超小封裝) 通訊接口:直接輸出,鎖存(toggle)輸出 低功耗模式電流2.5uA-3V VKD233DR --- 工作電壓/電流:2.4V-5.5V/1.5uA-3V 1感應按鍵 封裝:DFN6(2*2超小封裝) 通訊接口:直接輸出,鎖存(toggle)輸出 低功耗模式電流1.5uA-3V VKD233DG --- 工作電壓/電流:2.4V-5.5V/2.5uA-3V 1感應按鍵 封裝:DFN6(2*2超小封裝) 通訊接口:直接輸出,鎖存(toggle)輸出 低功耗模式電流2.5uA-3V VKD233DQ --- 工作電壓/電流:2.4V-5.5V/5uA-3V 1感應按鍵 封裝:SOT23-6 通訊接口:直接輸出,鎖存(toggle)輸出 低功耗模式電流5uA-3V VKD233DM --- 工作電壓/電流:2.4V-5.5V/5uA-3V 1感應按鍵 封裝:SOT23-6 (開漏輸出) 通訊接口:開漏輸出,鎖存(toggle)輸出 低功耗模式電流5uA-3V VKD232C --- 工作電壓/電流:2.4V-5.5V/2.5uA-3V 感應通道數(shù):2 封裝:SOT23-6 通訊接口:直接輸出,低電平有效 固定為多鍵輸出模式,內建穩(wěn)壓電路 MTP觸摸IC——VK36N系列抗電源輻射及手機干擾: VK3601L --- 工作電壓/電流:2.4V-5.5V/4UA-3V3 感應通道數(shù):1 1對1直接輸出 待機電流小,抗電源及手機干擾,可通過CAP調節(jié)靈敏 封裝:SOT23-6 VK36N1D --- 工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):1 1對1直接輸出 觸摸積水仍可操作,抗電源及手機干擾,可通過CAP調節(jié)靈敏封裝:SOT23-6 VK36N2P --- 工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):2 脈沖輸出 觸摸積水仍可操作,抗電源及手機干擾,可通過CAP調節(jié)靈敏封裝:SOT23-6 VK3602XS ---工作電壓/電流:2.4V-5.5V/60UA-3V 感應通道數(shù):2 2對2鎖存輸出 低功耗模式電流8uA-3V,抗電源輻射干擾,寬供電電壓 封裝:SOP8 VK3602K --- 工作電壓/電流:2.4V-5.5V/60UA-3V 感應通道數(shù):2 2對2直接輸出 低功耗模式電流8uA-3V,抗電源輻射干擾,寬供電電壓 封裝:SOP8 VK36N2D --- 工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):2 1對1直接輸出 觸摸積水仍可操作,抗電源及手機干擾,可通過CAP調節(jié)靈敏封裝:SOP8 VK36N3BT ---工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):3 BCD碼鎖存輸出 觸摸積水仍可操作,抗電源及手機干擾,可通過CAP調節(jié)靈敏 封裝:SOP8 VK36N3BD ---工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):3 BCD碼直接輸出 觸摸積水仍可操作,抗電源及手機干擾,可通過CAP調節(jié)靈敏 封裝:SOP8 VK36N3BO ---工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):3 BCD碼開漏輸出 觸摸積水仍可操作,抗電源及手機干擾 封裝:SOP8/DFN8(超小超薄體積) VK36N3D --- 工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):3 1對1直接輸出 觸摸積水仍可操作,抗電源及手機干擾 封裝:SOP16/DFN16(超小超薄體積) VK36N4B ---工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):4 BCD輸出 觸摸積水仍可操作,抗電源及手機干擾 封裝:SOP16/DFN16(超小超薄體積) VK36N4I---工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):4 I2C輸出 觸摸積水仍可操作,抗電源及手機干擾 封裝:SOP16/DFN16(超小超薄體積) VK36N5D ---工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):5 1對1直接輸出 觸摸積水仍可操作,抗電源及手機干擾 封裝:SOP16/DFN16(超小超薄體積) VK36N5B ---工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):5 BCD輸出 觸摸積水仍可操作,抗電源及手機干擾 封裝:SOP16/DFN16(超小超薄體積) VK36N5I ---工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):5 I2C輸出 觸摸積水仍可操作,抗電源及手機干擾 封裝:SOP16/DFN16(超小超薄體積) VK36N6D --- 工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):6 1對1直接輸出 觸摸積水仍可操作,抗電源及手機干擾 封裝:SOP16/DFN16(超小超薄體積) VK36N6B ---工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):6 BCD輸出 觸摸積水仍可操作,抗電源及手機干擾 封裝:SOP16/DFN16(超小超薄體積) VK36N6I ---工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):6 I2C輸出 觸摸積水仍可操作,抗電源及手機干擾 封裝:SOP16/DFN16(超小超薄體積) VK36N7B ---工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):7 BCD輸出 觸摸積水仍可操作,抗電源及手機干擾 封裝:SOP16/DFN16(超小超薄體積) VK36N7I ---工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):7 I2C輸出 觸摸積水仍可操作,抗電源及手機干擾 封裝:SOP16/DFN16(超小超薄體積) VK36N8B ---工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):8 BCD輸出 觸摸積水仍可操作,抗電源及手機干擾 封裝:SOP16/DFN16(超小超薄體積) VK36N8I ---工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):8 I2C輸出 觸摸積水仍可操作,抗電源及手機干擾 封裝:SOP16/DFN16(超小超薄體積) VK36N9I ---工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):9 I2C輸出 觸摸積水仍可操作,抗電源及手機干擾 封裝:SOP16/DFN16(超小超薄體積) VK36N10I ---工作電壓/電流:2.2V-5.5V/7UA-3V3 感應通道數(shù):10 I2C輸出 觸摸積水仍可操作,抗電源及手機干擾
標簽: LCD 128 VKL 跑步機 液晶屏 儀器儀表 驅動芯片
上傳時間: 2022-04-06
上傳用戶:shubashushi66
