1602 lcd display datasheet brands

This is a basic 16 character by 2 line display. Black text on Green background. Interface code is freely available. You will need ~11 general I/O pins to interface to this LCD screen. Using the very common Sumsang KS0066 parallel interface chipset which is equivalent of Hitachi HD44780. Includes LED backlight.

Introduction:As we all know, though LCD and some other displays greatly enrich the man-machine interaction, they share a common weakness. When they are connected to a controller, multiple IOs will be occupied of the controller which has no so many outer ports. Also it restricts other functions of the controller.Therefore, LCD1602 with an I2C port is developed to solve the problem. It is also simple to handle. It has only two bidirectional data lines, a serial data line and a serial clock one.How to wire:GND-GND; VCC-VCC; SDA-A4; SCL-A5Features:Voltage: 5V DCLCD display type: CharactersModule dimension: 80mm x 35mm x 11mmData：1602 standard 16-pin interface, including:Pin 1: VSS is the ground power.2 feet: VDD then 5V positive power supply3 feet: V0 LCD contrast adjustment end, then the positive power supply when the contrast is the weakest, the highest contrast when grounded power, the contrast is too high will have a "ghosting", when used by a 10K potentiometer to adjust the contrast.4 feet: RS for the register selection, high-level data register selection, low-level instruction register selection.5 feet: R / W for the read and write signal lines, high-level read operation, low-level write operation.6th foot: E end is enable end, when E end jumps from high level to low level, the liquid crystal module carries out the order.7 ~ 14 feet: D0 ~ D7 for the 8-bit bidirectional data lines.15 feet: the positive power supply backlight16th foot: backlight power negative

Text: . A Issued Date. Dec. 16.02 Page. 8 3. Optical Specifications 3.1 LCD Driving Voltage , -10A Revision No. A Issued Date. Dec. 16.02 6. Appearance Standards 6.1 Inspection Conditions The LCD , Messrs. Product Specification Model: MTC-S16100AMNHSGW-10A Revision No. A Issued Date. Dec. 16.02 , . Product Specification Model: MTC-S16100AMNHSGW-10A Revision No. A Issued Date. Dec. 16.02 Page. 2 , Issued Date. Dec. 16.02 CONTENTS 1. General Specifications

Text: PCB Variant: X Backlight Type NWithout backlight TLED, White LCD Mode BEL, Blue green ALED , . Precautions in use of LCD Modules 3. General Specification 4. Absolute Maximum Ratings 5. Electrical , .Module Classification Information CFA H 1602 X Y Y H JP Brand: CRYSTALFONTZ AMERICA, INC , MSTN Negative, Blue FFSTN Positive AReflective, N.T, 6:00 HTransflective, W.T,6:00 LCD Polarizer , Code JPEnglish and Japanese standard font 2. Precautions in use of LCD Modules (1)Avoid applying

Text: ) (B1) 5 29 LCD 4 98.0( PCB ) 97.7(KJ) 92.0 19.6 3.0 9.15 17.5 10.0 , 19 29 LCD RD E WR RS R/W DB7 1602 DB6 DB5 DB4 DB3 DB2 DB1 DB0 , LCD 1. -2 2 , . -27 9. -29 Model No.: Editor: LCD 1. 2. 12 3. 3-1 : : : : : STN LCD 20(C)×4(L) : MPU

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Text: R/W CGRAM DDRAM DB7~DB0 19 29 LCD RD E WR RS R/W DB7 1602 DB6 , LCD 1. -2 2 , . -27 9. -29 Model No.: Editor: LCD 1. 2. 12 3. 3-1 : : : : : STN LCD 16(C)×1(L) : MPU , 0.52(W)×0.52(H) mm 0.6(W)×0.6(H) mm g 2 29 LCD 3-3

Text: Diagram TS PCB I O PCB SERIAL CN1602 CN1203 CN1201 CN1202 CN1603 SPEAKER (R) SPEAKER (L) LCD , PCB LCD Front Cabinet LCD Unit 1. Disconnect the Cable from the Connector (CN1701). 2. Remove the two Screws . 3. Remove the USB PCB . Screws : DFHE5025XA 1. Remove the two LCD Leg , Unit Inverter Inverter Case LCD /INV. Cable W-LAN PCB L W-LAN PCB R Hinge , the LCD Unit and the Inverter 1. Fix the W-LAN PCB L and R to the LCD Rear Cabinet using the two

Abstract: "DATA VISION" 16 X 2 LCD MODULE LCD 1602 display DATA VISION LCD MODULE DC generator LCD display 1602 led display module 32 16 DV-16275 LCD 1602 INTERFACE LED display module 16 characteristic in

Text: : LCD MODULE Model No. : DV-16275-S1FBLY/R22 Drawing No. : Approved by : Date Approved , , dot-matrix LCD unit of a 5 x 7- dot 16-character 2line dot-matrix LCD panel, LCD driver, controller LSI and yellow green back-light LED fabricated on a single PCB . Incorporating mask ROM-based character , characters under microprocessor control. 2. PRODUCT SPECIFICATIONS 2.1 General l The LCD of the unit is , consumption with the dot-matrix LCD panel and CMOS LSI. Built-in back-light LED with high luminance and

Abstract: WH1602 WH1602L HD44780 1602 16x2 LCD Display Module assembly lcd 16x2 8-bit winstar lcd 1602 lcd display 16x2 hd44780 Winstar lcd 1602 lcd winstar WH1602L-NGG-CT

Text: -4-24262207 SPECIFICATION CUSTOMER : MODULE NO.: WH1602L-NGG-CT APPROVED BY: ( FOR CUSTOMER USE ONLY ) PCB , Information 2.Precautions in use of LCD Modules 3.General Specification 4.Absolute Maximum Ratings 5 , Information WH 1602 L N G G CT BrandWINSTAR DISPLAY CORPORATION Display TypeHCharacter Type, GGraphic Type Display FontCharacter 16 words, 2Lines. Model serials no. Backlight Type LCD Mode , , GSTN Positive, Gray YSTN Positive, Yellow Green MSTN Negative, Blue FFSTN Positive LCD Polarizer

Text: .: WH1602B-TMI-ET# APPROVED BY: ( FOR CUSTOMER USE ONLY ) SALES BY PCB VERSION: APPROVED BY VERSION , é ï¼Œå…± 28 é  Contents 1.Module Classification Information 2.Precautions in use of LCD Modules 3 ,  1.Module Classification Information WH 1602 B－T M I－ ET# Brand：WINSTAR DISPLAY , Y→LED, Yellow Green LCD Mode： B→TN Positive, Gray T→FSTN Negative N→TN Negative, G→STN Positive, Gray Y→STN Positive, Yellow Green M→STN Negative, Blue F→FSTN Positive LCD Polarize

Text: -4-24262207 SPECIFICATION CUSTOMER : MODULE NO.: WH1602B-YYH-CTKV# APPROVED BY: ( FOR CUSTOMER USE ONLY ) PCB , .Module Classification Information 2.Precautions in use of LCD Modules 3.General Specification 4.Absolute Maximum , Information WH 1602 BY Y H CTKV# BrandWINSTAR DISPLAY CORPORATION Display TypeHCharacter Type , , White GLED, Green YLED, Yellow Green LCD Mode BTN Positive, Gray TFSTN Negative NTN Negative, GSTN Positive, Gray YSTN Positive, Yellow Green MSTN Negative, Blue FFSTN Positive LCD Polarize

Text: .: WH1602B2-TMI-ET# APPROVED BY: ( FOR CUSTOMER USE ONLY ) PCB VERSION: SALES BY APPROVED BY VERSION , .Precautions in use of LCD Modules 3.General Specification 4.Absolute Maximum Ratings 5 , Components for RoHs 第 3 é ï¼Œå…± 29 é  1.Module Classification Information WH 1602 B2－T M , G→LED, Green F→CCFL, White T→LED, White Y→LED, Yellow Green LCD Mode： B→TN Positive, Gray , Negative, Blue F→FSTN Positive LCD Polarize A→Reflective, N.T, 6:00 H→Transflective, W.T,6:00

Text: Stable mating condition with large mating guides on a plug side connector · Better PCB holding strength , soldering and FFC etc., depending on purpose · VESA standard connector for LCD interface of LCD , , Inc. 1602 , Korea City Air Tower 159-9 Samsung-Dong, Kangnam-ku Seoul, 135-973, Korea Telephone

Abstract: NEL-D32-49 Hitachi LCD 1602 lcd 2X20 epson SEIKO L2432 HD44780 1602 blue lcd G242CX5R1AC ILP-324-INV SEIKO M1632 SEIKO M1632 LCD Dot Matrix Display

Text: with a PCB (printed circuit board) containing the drive LSI. This is known as an LCD module, which , . LCD Technology. Character Modules. Character LCD Specifications. Opto/Electrical Characteristics Pin Function. 3 Character LCD Modules. 9 4 Character Module Dimensions. 11 6 Graphic Modules LCD .16 7 Opto/Electrical Characteristics.17 7 Graphic LCD Modules

Text: PCB View 30012902 Component View 30012905 3 www.national.com AN- 1602 Tracks Top , National Semiconductor Application Note 1602 Gerrit Segers March 2007 General Description , two mini-switches (S1 & S2) situated on the border of the PCB . If these switches are placed in the , Evaluation Board LMH7322 Dual Comparator Evaluation Board LAYOUT CONSIDERATIONS The setup of the PCB is simple and consists of a double sided PCB with a ground plane on the bottom side and the

Text: (Typ.) @ RSENS = 15 High Efficiency F G MILLIMETERS _ 2.9 + 0.2 1.6+0.2 /-0.1 _ 0.70 + 0.05 , Back light white LEDs in LCD of PDA, Cellular Phone Handy Terminal Equipment. TS6 Marking SW , Dissipation W 0.47(on PCB )Caution 2 300(Device) Rth(j-a) Thermal Resistance /W 260(on PCB , subtraction of 3.8 mW/ C from Maximum Rating with every 1 if Topr is upper 25 C. (on PCB ) ELECTRICAL

Text: MILLIMETERS _ 2.9 + 0.2 1.6+0.2 /-0.1 _ 0.70 + 0.05 _ 0.4 + 0.1 2.8+0.2/-0.3 _ 1.9 + 0.2 0.60 0.55 H J Switching Frequency : 1.0 MHz (Typ.) Applications Back light white LEDs in LCD of , ) PD Power Dissipation W 0.47(on PCB )Caution 2 300(Device) Rth(j-a) Thermal Resistance /W 260(on PCB ) Operation Temperature Range Topr -40 to +85 Storage Temperature Range , C. (on PCB ) ELECTRICAL CHARACTERISTICS (Ta = 25 Characteristics , VIN=2.8V to 5.5V if without

Text: PCB-to-Cable · · · · · · · · · · · · · · The FI-X Series connectors are designed for thin LCD interface , 1mm (.039") height above the PCB Ground Plate Copper Alloy / Tin plating Insulator Shell , Nickel FI-X*M (Cable Connector) · FPC provides stable grounding to the PCB Ground Plate Copper , .) 1 (.039) FPC 1.3 (.051) CONTACT STROKE PCB 7.9 (.311) (Continued Next Page , : 852-2723-7782 Fax: 852-2723-9028 JAE Korea, Inc. 1602 , Korea City Air Tower 159-9 Samsung-Dong, Kangnam-ku

Across Arduino projects, you need a display unit to reflect the output visually. It is perfect to integrate a display that can demonstrate your results in an LCD format. In case your project requires only a little-sized unit, the LCD 1602 LCD Display is likely to be a perfect choice for your Arduino or other projects. It brings simpler solutions that are too, at competitive prices. Users can mount 16 x 2 White on RGB LCD (Liquid Crystal Display) into your innovative projects.

Further, the display under question is a panel that can hold 16 characters divided into two lines with a blue color background. Ultimately, it delivers a crystal-clear presentation with high contrast in the white-color text format. The unit further justices the superiority in many ways. It is quite brilliant when it comes to integrating with Arduino projects. Users will have no hassle to interface the unit with Arduino and other microcontrollers.

On the display presentation, the unit will show the values either in the simple text format or numerical values. The sensor reads the data and conveys it to readers through the LCD display in numerical or text shapes. For instance,it can show the temperature, pressure as well as the number of cycles performed by Arduino.

If you"re looking forward to making your Arduino projects display status messages/readings, implementing the LCD1602 LCD Display is a great thought. In fact, it is the best and common way to embrace your Arduino projects with interface prospects.

Since the LCD 1602 Display presents text/characters only, therefore it is named as character LCD. It integrates an LED backlight that can show 32 ASCII characters in two rows (16 characters on each row).

E (Enable): Simply, this pin is used to enable the display. It processes the incoming data after you set the pin on HIGH. However, it doesn’t consider the data from R/W, RS, and other pins.

you load the test then you go to serial monitor while the arduino uno with the lcd is connected and it will tell you the address of the display. Then you change the code to the right address.

FSTN Gray background, SPI Interface, RGB Edge-lit LED backlight, bottom (or 6:00) viewing angle, Transflective polarizer, 5-Volt LCD, 5-Volt LED, RoHS Compliant. This display has a wide temperature range: -20° Celcius to +70° Celcius which equates to (-4° Fahrenheit to +158° Fahrenheit).

FSTN (Film-compensated Super-twisted Nematic) provides a sharper contrast than STN by adding a film. The cost is approximately 5% higher than STN. FSTN works great for indoor and outdoor applications and is mainly used in graphic displays and higher end products. The Transflective polarizer is a mixture of Reflective and Transmissive. It provides the ability to read the LCD with or without the backlight on. It will work for all lighting conditions from dark with backlight to direct sunlight which makes it the most common choice. There is no cost difference between Transflective, Transmissive and Reflective.

Focus LCDs can provide many accessories to go with your display. If you would like to source a connector, cable, test jig or other accessory preassembled to your LCD (or just included in the package), our team will make sure you get the items you need.Get in touch with a team member today to accessorize your display!

Focus Display Solutions (aka: Focus LCDs) offers the original purchaser who has purchased a product from the FocusLCDs.com a limited warranty that the product (including accessories in the product"s package) will be free from defects in material or workmanship.

If you’ve ever attempted to connect an LCD display to an Arduino, you’ve probably noticed that it uses a lot of Arduino pins. Even in 4-bit mode, the Arduino requires seven connections – half of the Arduino’s available digital I/O pins.

The solution is to use an I2C LCD display. It only uses two I/O pins that are not even part of the digital I/O pin set and can be shared with other I2C devices.

As the name suggests, these LCDs are ideal for displaying only characters. A 16×2 character LCD, for example, can display 32 ASCII characters across two rows.

At the heart of the adapter is an 8-bit I/O expander chip – PCF8574. This chip converts the I2C data from an Arduino into the parallel data required for an LCD display.

If you have multiple devices on the same I2C bus, you may need to set a different I2C address for the LCD adapter to avoid conflicting with another I2C device.

An important point to note here is that several companies, including Texas Instruments and NXP Semiconductors, manufacture the same PCF8574 chip. And the I2C address of your LCD depends on the chip manufacturer.

According to the Texas Instruments’ datasheet, the three address selection bits (A0, A1, and A2) are located at the end of the 7-bit I2C address register.

According to the NXP Semiconductors’ datasheet, the three address selection bits (A0, A1, and A2) are located at the end of the 7-bit I2C address register. However, the remaining bits in the address register are different.

So the I2C address of your LCD is most likely 0x27 or 0x3F. If you’re not sure what your LCD’s I2C address is, there’s an easy way to figure it out. You’ll learn about that later in this tutorial.

After wiring the LCD, you will need to adjust the contrast of the LCD. On the I2C module, there is a potentiometer that can be rotated with a small screwdriver.

Now, turn on the Arduino. You will see the backlight light up. As you turn the potentiometer knob, the first row of rectangles will appear. If you have made it this far, Congratulations! Your LCD is functioning properly.

Before you can proceed, you must install the LiquidCrystal_I2C library. This library allows you to control I2C displays using functions that are very similar to the LiquidCrystal library.

As previously stated, the I2C address of your LCD depends on the manufacturer. If your LCD has a PCF8574 chip from Texas Instruments, its I2C address is 0x27; if it has a PCF8574 chip from NXP Semiconductors, its I2C address is 0x3F.

If you’re not sure what your LCD’s I2C address is, you can run a simple I2C scanner sketch that scans your I2C bus and returns the address of each I2C device it finds.

However, before you upload the sketch, you must make a minor change to make it work for you. You must pass the I2C address of your LCD as well as the display dimensions to the LiquidCrystal_I2C constructor. If you’re using a 16×2 character LCD, pass 16 and 2; if you’re using a 20×4 character LCD, pass 20 and 4.

The next step is to create an object of LiquidCrystal_I2C class. The LiquidCrystal_I2C constructor accepts three inputs: I2C address, number of columns, and number of rows of the display.

In the setup, three functions are called. The first function is init(). It initializes the interface to the LCD. The second function is clear(). This function clears the LCD screen and positions the cursor in the upper-left corner. The third function, backlight(), turns on the LCD backlight.

The function setCursor(2, 0) is then called to move the cursor to the third column of the first row. The cursor position specifies where you want the new text to appear on the LCD. It is assumed that the upper left corner is col=0 and row=0.

There are many useful functions you can use with LiquidCrystal_I2C Object. Some of them are listed below:lcd.home() function positions the cursor in the upper-left of the LCD without clearing the display.

lcd.scrollDisplayRight() function scrolls the contents of the display one space to the right. If you want the text to scroll continuously, you have to use this function inside a for loop.

lcd.scrollDisplayLeft() function scrolls the contents of the display one space to the left. Similar to the above function, use this inside a for loop for continuous scrolling.

lcd.display() function turns on the LCD display, after it’s been turned off with noDisplay(). This will restore the text (and cursor) that was on the display.

If you find the default font uninteresting, you can create your own custom characters (glyphs) and symbols. They come in handy when you need to display a character that isn’t in the standard ASCII character set.

The CGROM stores the font that appears on a character LCD. When you instruct a character LCD to display the letter ‘A’, it needs to know which pixels to turn on so that we see an ‘A’. This data is stored in the CGROM.

CGRAM is an additional memory for storing user-defined characters. This RAM is limited to 64 bytes. Therefore, for a 5×8 pixel LCD, only 8 user-defined characters can be stored in CGRAM, whereas for a 5×10 pixel LCD, only 4 can be stored.

After including the library and creating the LCD object, custom character arrays are defined. The array consists of 8 bytes, with each byte representing a row in a 5×8 matrix.