Difference between revisions of "Components"

==Inputs==

|width=30%|[[File:Component Icon 235fd689_bfd1_4c4a_a918_6c3c36e9a49f.png|Image]] [[Component: ID 235fd689_bfd1_4c4a_a918_6c3c36e9a49f|ADC (MCP356X)]]

 

| An external ADC featuring 2, 4, or 8 channel 24-bit input.Capable of reading each channel independently or in differential mode.Communication using an SPI bus up to 20MHz.

 

|width=30%|[[File:Component Icon 0e4cb9c6_10d4_416f_bc27_5f8f7bc746b4.png|Image]] [[Component: ID 0e4cb9c6_10d4_416f_bc27_5f8f7bc746b4|Grey Code Encoder]]

 

|width=30%|[[File:Component Icon 3531a68d_7686_44b7_a3a5_67afda8467dc.png|Image]] [[Component: ID 3531a68d_7686_44b7_a3a5_67afda8467dc|Quadrature Encoder]]

 

| Quadrature Encoder component implements a rotary encoder connected to two pins.Quadrature Encoders provides incremental positioning rather than absolute positioning.

 

|width=30%|[[File:Component Icon 6c74b9ee_2907_4b1e_8a9b_80fc192b6027.png|Image]] [[Component: ID 6c74b9ee_2907_4b1e_8a9b_80fc192b6027|Keypad (4x4)]]

 

|width=30%|[[File:Component Icon 9306f758_06af_49f8_8b09_d10d2b4374dd.png|Image]] [[Component: ID 9306f758_06af_49f8_8b09_d10d2b4374dd|Rotary Switch]]

 

|width=30%|[[File:Component Icon 6f2c4205_6a87_46ba_a8b4_8c869e144fcd.png|Image]] [[Component: ID 6f2c4205_6a87_46ba_a8b4_8c869e144fcd|Switch (Microswitch)]]

 

| Industry standard V3 size microswitch fitter with a roller arm - activated by other panel objects coming into contact with the roller.

 

|width=30%|[[File:Component Icon 953a042a_b2aa_4f2e_94e2_ee2979cfc92e.png|Image]] [[Component: ID 953a042a_b2aa_4f2e_94e2_ee2979cfc92e|Switch Template]]

 

| Single switch digital input components.

 

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|width=30%|[[File:Component Icon 208101fb_f735_4e83_980b_c1d2b4be28ff.png|Image]] [[Component: ID 208101fb_f735_4e83_980b_c1d2b4be28ff|Switch Array (Push)]]

 

| An array of up to eight momentary push switches, each connected to a single pin of the specified port.

 

|width=30%|[[File:Component Icon 4ac72986_ad7d_49ce_afe5_9128831debc9.png|Image]] [[Component: ID 4ac72986_ad7d_49ce_afe5_9128831debc9|Switch Array (Slide)]]

 

| An array of up to eight slide switches, each connected to a single pin of the specified port.

 

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|width=30%|[[File:Component Icon 3d87ffe9_97c1_4013_a2cd_82c24d0ccb48.png|Image]] [[Component: ID 3d87ffe9_97c1_4013_a2cd_82c24d0ccb48|DAC (AD5662)]]

 

 

|width=30%|[[File:Component Icon 09222494_fbef_455b_9651_9e9e46592eb5.png|Image]] [[Component: ID 09222494_fbef_455b_9651_9e9e46592eb5|DAC (Internal)]]

 

| Provides access to the onboard digital to analog converter (DAC) peripheral allowing for simple analogue output.Often the DAC output will be very low current and will need amplification using external circuitry to drive anything useful.

 

|width=30%|[[File:Component Icon 70a3bead_e66d_4a76_bc7b_fb1baa86d2e6.png|Image]] [[Component: ID 70a3bead_e66d_4a76_bc7b_fb1baa86d2e6|DAC (MCP47x6)]]

 

| Component to drive a digital to analogue converter (DAC) IC from Microchip via an I2C interface.Compatible with MCP4706 (8-Bit), MCP4716 (10-Bit) and MCP4726 (12-Bit) devices.

 

|width=30%|[[File:Component Icon fab5cf20_8686_4397_8a21_cc936659d5f6.png|Image]] [[Component: ID fab5cf20_8686_4397_8a21_cc936659d5f6|DAC (MCP48x1)]]

 

| Component to drive a digital to analogue converter (DAC) IC from Microchip via an SPI interface.Compatible with MCP4801 (8-Bit), MCP4811 (10-Bit) and MCP4821 (12-Bit) devices.

 

|width=30%|[[File:Component Icon b6de5668_e0ae_4c1a_9c16_b16aa3f58024.png|Image]] [[Component: ID b6de5668_e0ae_4c1a_9c16_b16aa3f58024|DAC (MCP49x1)]]

 

| Component to drive a digital to analogue converter (DAC) IC from Microchip via an SPI interface.Compatible with MCP4901 (8-Bit), MCP4911 (10-Bit) and MCP4921 (12-Bit) devices.

 

|width=30%|[[File:Component Icon f484e96a_af4f_434e_a002_70d3f4315dfb.png|Image]] [[Component: ID f484e96a_af4f_434e_a002_70d3f4315dfb|DAC Dual (MCP48x2)]]

 

 

|width=30%|[[File:Component Icon b66f5769_5e9d_40e7_9159_c6a0552ff86e.png|Image]] [[Component: ID b66f5769_5e9d_40e7_9159_c6a0552ff86e|DAC Dual (MCP49x2)]]

 

| Component to drive a dual digital to analogue converter (DAC) IC from Microchip via an SPI interface.Compatible with MCP4902 (8-Bit), MCP4912 (10-Bit) and MCP4922 (12-Bit) devices.

 

|width=30%|[[File:Component Icon adb523db_db13_4d19_bfa3_0fbc177e4d3f.png|Image]] [[Component: ID adb523db_db13_4d19_bfa3_0fbc177e4d3f|DAC Quad (MCP4728)]]

 

| Component to drive a quad digital to analogue converter (DAC) IC from Microchip via an I2C interface.Compatible with MCP4728 (12-Bit) devices.

 

|width=30%|[[File:Component Icon 37025734_a84d_46ad_9078_925beb81f38b.png|Image]] [[Component: ID 37025734_a84d_46ad_9078_925beb81f38b|Digital Potentiometer (MCP41XX MCP42XX)]]

 

| The MCP41XX and MCP42XX device range supports up to 2 digital potentiometers or rheostat outputs.129 or 257 possible output resistance values for each channel.

 

|width=30%|[[File:Component Icon 3a3a0802_42b6_4c31_8983_4d043b70b443.png|Image]] [[Component: ID 3a3a0802_42b6_4c31_8983_4d043b70b443|Digital Potentiometer (MCP44XX)]]

 

| The MCP44XX device range supports 4 digital potentiometers or rheostat outputs.129 or 257 possible output resistance values for each channel.

 

|width=30%|[[File:Component Icon a69bf9b3_272e_44b3_a47d_22f53c3c0804.png|Image]] [[Component: ID a69bf9b3_272e_44b3_a47d_22f53c3c0804|Digital Potentiometer (MCP45XX / MCP46XX)]]

 

| The MCP45XX and MCP46XX device range supports up to 2 digital potentiometers or rheostat outputs.129 or 257 possible output resistance values for each channel.

 

|width=30%|[[File:Component Icon 0a0819d2_73b7_4bc2_bc11_f3139972d224.png|Image]] [[Component: ID 0a0819d2_73b7_4bc2_bc11_f3139972d224|Digital Potentiometer (X9Cx0x)]]

 

| The X9Cx0x device range supports a digital potentiometers outputs.100 possible wiper tap points available. Supported devices include X9C102, X9C103, X9C104, X9C503.

 

{| class="wikitable" width="85%"

 

|width=30%|[[File:Component Icon 04bbd3b8_ee11_40eb_91e8_1bbbd6f65b8c.png|Image]] [[Component: ID 04bbd3b8_ee11_40eb_91e8_1bbbd6f65b8c|Buzzer]]

 

 

|width=30%|[[File:Component Icon 70ec3aee_f273_4b0e_8ee6_e2b3a8b693af.png|Image]] [[Component: ID 70ec3aee_f273_4b0e_8ee6_e2b3a8b693af|Piezo Sounder]]

 

| Drives a simple variable frequency piezo sounder in hardware and simulates the sound in simulation.To actually drive a piezo you may have to amplify the signal from the microcontrollerusing a transistor or MOSFET.

 

|width=30%|[[File:Component Icon 01fd689c_985c_4b10_bc98_99de5f9b41a8.png|Image]] [[Component: ID 01fd689c_985c_4b10_bc98_99de5f9b41a8|Speech (Phoneme)]]

 

| Speech component allowing Phoneme based speech for use on an embedded platform.The simulation also has an advanced speech engine allowing realistic text to speech in multiple languages using the RealSpeak voice engine.

 

 

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|width=30%|[[File:Component Icon 444fb704_814c_4707_a15c_759ba088505c.png|Image]] [[Component: ID 444fb704_814c_4707_a15c_759ba088505c|PWM (Internal)]]

 

 

|width=30%|[[File:Component Icon 5bd41be2_1b9c_4f30_ba78_84cb29d61ced.png|Image]] [[Component: ID 5bd41be2_1b9c_4f30_ba78_84cb29d61ced|PWM 16CH 12Bit (PCA9685)]]

 

| The PCA9685 is an I²C-bus controlled 16-channel LED controller optimized for Red/Green/Blue/Amber (RGBA) color backlighting or Servo motor applications. Each output has its own 12-bit resolution (4096 steps) fixed frequency individual PWM controller that operates at a programmable frequency from a typical of 24 Hz to 1526 Hz.All outputs are set to the same PWM frequency.Up to 64 devices can be chained together on a single I²C-bus to provide up to 1024 individual PWM outputs.

 

|width=30%|[[File:Component Icon 2f95990b_1dc6_4cb4_a6b1_e000a487b702.png|Image]] [[Component: ID 2f95990b_1dc6_4cb4_a6b1_e000a487b702|Relay (Grove 103020005) (103020005)]]

 

| The Relay is a digital normally open switch capable of switching much higher voltages and currents than your normal Microcontroller outputs.When set to HIGH, the LED will light up and the relay will close allowing current to flow. The peak voltage capability is 250V at 10 amps.Simulated component is shaded green when the relay is active.

 

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|width=30%|[[File:Component Icon 1fb787a5_54fb_4847_9299_3adbf9927b59.png|Image]] [[Component: ID 1fb787a5_54fb_4847_9299_3adbf9927b59|LED (Generic, RGB)]]

 

| An LED with red, green and blue elements that can be mixed together to producealmost any colour at any brightness.

 

|width=30%|[[File:Component Icon 67271369_4b2e_4126_a5d0_a93142ac71b9.png|Image]] [[Component: ID 67271369_4b2e_4126_a5d0_a93142ac71b9|LED MultiColour Bi (5mm, PCB)]]

 

| An industry standard 5mm diameter bi-colour LED.Any color may be chosen, and the leads trimmed to length.

 

|width=30%|[[File:Component Icon a5c2033e_8639_4de3_80eb_58c02b44bd96.png|Image]] [[Component: ID a5c2033e_8639_4de3_80eb_58c02b44bd96|LED MultiColour Tri (5mm, PCB)]]

 

| An industry standard 5mm diameter tri-colour LED.Any color may be chosen, and the leads trimmed to length.

 

|width=30%|[[File:Component Icon a7b05886_784c_48c8_a6f6_cc371c7728e1.png|Image]] [[Component: ID a7b05886_784c_48c8_a6f6_cc371c7728e1|LED Template]]

 

| Single LED digital output components.

 

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|width=30%|[[File:Component Icon bbfc7c9f_fa05_4257_849d_8601ff7dc1de.png|Image]] [[Component: ID bbfc7c9f_fa05_4257_849d_8601ff7dc1de|Chainable RGB LED v2.0 (Grove 104020048) (104020048)]]

 

 

|width=30%|[[File:Component Icon c8da67a7_fc7b_48c0_8c3f_3264c74f4024.png|Image]] [[Component: ID c8da67a7_fc7b_48c0_8c3f_3264c74f4024|LED Array Template]]

 

| Multiple LED digital output components.

 

|width=30%|[[File:Component Icon 6664b695_2a8f_4247_ae55_110b38270877.png|Image]] [[Component: ID 6664b695_2a8f_4247_ae55_110b38270877|LED Bar v2.0 (Grove 104020006) (104020006)]]

 

| LED Bar is comprised of a 10 segment LED gauge bar and an MY9221 LED controlling chip.It can be used as a indicator for remaining battery life, voltage, water level, music volume or other values that require a gradient display. There are 10 LED bars in the LED bar graph: one red, one yellow, one light green, and the rest green. It lights up the LEDs sequentially from red to green, so the entire bar graph is lit up in the end.

 

|width=30%|[[File:Component Icon 489ad870_75dd_4fc4_9879_aa83871ddef6.png|Image]] [[Component: ID 489ad870_75dd_4fc4_9879_aa83871ddef6|LED Charlieplex]]

 

| Create an evenly spaced array of LED indicators using a reduced amount of I/O pins.Only one LED can be switched on at once, high speed multiplexing allows multiple LEDs to appear to be lit at once.Each will be connected in line with the standard charlieplex scheme.Set target object to point at any standard LED component to change the style.

 

|width=30%|[[File:Component Icon ef9cb184_0167_4d3e_a63b_6e0faad72391.png|Image]] [[Component: ID ef9cb184_0167_4d3e_a63b_6e0faad72391|LED Matrix (HT16K33)]]

 

| LED Matrix component designed to work using a HT16K33 LED driver IC.Can drive up to 16 x 8 (128) LEDs.Includes support for 8x16 Backpack, 16x8 Featherwing, 8x8 Backpack and Custom.

 

|width=30%|[[File:Component Icon 24bef796_e0e3_4195_a76d_920fdba5ea79.png|Image]] [[Component: ID 24bef796_e0e3_4195_a76d_920fdba5ea79|LED Matrix (Parallel)]]

 

| LED Matrix component designed to work using multiple data pins and a single clock pin.Each LED on the display can be controlled in a chain by setting the data appropriatley and then generating the appropriate amount of clock pulses.

 

|width=30%|[[File:Component Icon 5a88c882_0396_44f3_a67b_f236244800d1.png|Image]] [[Component: ID 5a88c882_0396_44f3_a67b_f236244800d1|LED Matrix (Serial)]]

 

| LED Matrix component designed to work using a single data and clock pin.Each LED on the display can be controlled in a chain by setting the data appropriatley and then generating the appropriate amount of clock pulses.

 

|width=30%|[[File:Component Icon 0161e243_0ca0_497d_88be_76351cf4dfa1.png|Image]] [[Component: ID 0161e243_0ca0_497d_88be_76351cf4dfa1|RGB LED APA102C]]

 

| A simple chained RGB LED controller IC allowing multiple LEDs to be controlled using a serial data stream.Allows RGB LEDs to be driven with full 24-bit colour depth.Allows single chains, 2D arrays and 3D cube formations to be simulated.Supports Bit Banged or SPI peripheral based data modes.

 

|width=30%|[[File:Component Icon d814cb36_0d04_4eeb_b5b3_da8276ad8bdf.png|Image]] [[Component: ID d814cb36_0d04_4eeb_b5b3_da8276ad8bdf|RGB LED WS2801]]

 

| A simple chained RGB LED controller IC allowing multiple LEDs to be controlled using a serial data stream.Allows RGB LEDs to be driven with full 24-bit colour depth.Allows single chains, 2D arrays and 3D cube formations to be simulated.Supports Bit Banged or SPI peripheral based data modes.

 

|width=30%|[[File:Component Icon 83c095cc_fefc_4854_a7c5_7fe867753bf4.png|Image]] [[Component: ID 83c095cc_fefc_4854_a7c5_7fe867753bf4|Coupling]]

 

|width=30%|[[File:Component Icon bfa45502_f9d6_4b53_a239_b5731f9288d5.png|Image]] [[Component: ID bfa45502_f9d6_4b53_a239_b5731f9288d5|Gearbox]]

 

| A simple component to couple together two rotating shafts via a gearbox.The gearbox can be used to scale the input rotational speed and optionally reverse the output direction.

 

|width=30%|[[File:Component Icon 15921536_cf92_4cd3_88e4_207c251ab775.png|Image]] [[Component: ID 15921536_cf92_4cd3_88e4_207c251ab775|Linear Actuator]]

 

| Creates a linear actuator that can be used with the various motor components via a coupling or gearbox.

 

|width=30%|[[File:Component Icon 952471c7_11ca_430b_ab72_4fda8b195f83.png|Image]] [[Component: ID 952471c7_11ca_430b_ab72_4fda8b195f83|Motor Template]]

 

| Base component for constructing continuous motion - e.g. motors.Automatically animates two objects - one within the same host components (e.g. moving partsof the motor itself), and one external (e.g. the mechanism to which the motor is connected).

 

|width=30%|[[File:Component Icon 9202a62e_0a42_4780_adce_16b701e5ec53.png|Image]] [[Component: ID 9202a62e_0a42_4780_adce_16b701e5ec53|Servo Motor Controller]]

 

| Can control up to eight standard PWM driven servo's.Supports 8-bit and 16-bit movement resolutions.'Servo Object' properties allow you to connect the controller to on-screen simulations using the "Servo Motor" component and its derivatives.

 

|width=30%|[[File:Component Icon fbad3c39_8c38_49b7_a860_ae37e9b979a2.png|Image]] [[Component: ID fbad3c39_8c38_49b7_a860_ae37e9b979a2|Servo Motor Template]]

 

| Base component for creating custom servo motor simulations.Recieves messages  from the the 'Servo Controller' component.Macro 'SetTarget' allows external objects to be moved by the servofor mechanical simulations.

 

|width=30%|[[File:Component Icon eb1db17a_1c6c_44ef_84d0_d718549343c4.png|Image]] [[Component: ID eb1db17a_1c6c_44ef_84d0_d718549343c4|Solenoid Template]]

 

| Base component for constructing solenoids.These take a single input pin and move an actuator between two positions depending onthe pin state.

 

|width=30%|[[File:Component Icon faf668b1_a0e6_426f_b1ef_9d4f8e54d784.png|Image]] [[Component: ID faf668b1_a0e6_426f_b1ef_9d4f8e54d784|Stepper Motor Template]]

 

| Enables the creation of a stepper motor component by specifying objects for its appearance.'Attach to...' property should be exposed in any components buit from this -this sets a target object to be joined to the motor shaft.The target can then be rotated around the axis with a custom gear ration, or moved linearlyaccording to the pitch of a given lead screw.

 

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|width=30%|[[File:Component Icon 672cb410_6026_403b_aff7_0628fe9e8140.png|Image]] [[Component: ID 672cb410_6026_403b_aff7_0628fe9e8140|LCD (Adafruit, 16x2)]]

 

 

|width=30%|[[File:Component Icon 913991df_9bcb_475a_ae49_d9eb611b0d71.png|Image]] [[Component: ID 913991df_9bcb_475a_ae49_d9eb611b0d71|LCD (Adafruit, 20x4)]]

 

| Adafruit OLED LCD display capable of displaying 4 lines of 20 characters.

 

|width=30%|[[File:Component Icon 0953aac0_9c23_4c2f_9843_88954a4191ea.png|Image]] [[Component: ID 0953aac0_9c23_4c2f_9843_88954a4191ea|LCD (Generic)]]

 

| Generic configurable alphanumeric LCD display component based on the standard Hitachi HD44780 controller IC wiith selectable 4/8 bit interface

 

|width=30%|[[File:Component Icon 3cf64267_8c56_47b0_84a1_a933a77716bc.png|Image]] [[Component: ID 3cf64267_8c56_47b0_84a1_a933a77716bc|LCD I2C (LCM1602)]]

 

| Generic alphanumeric LCD display based on the standard Hitachi HD44780 controller IC.Connected using an I2C based PCF8574 IO Expander IC.

 

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|width=30%|[[File:Component Icon b0f3982e_7ca6_4504_afe5_1b76fa09fad1.png|Image]] [[Component: ID b0f3982e_7ca6_4504_afe5_1b76fa09fad1|Drawing Area]]

 

 

|width=30%|[[File:Component Icon 07698cde_7f30_419b_825c_35450877ad26.png|Image]] [[Component: ID 07698cde_7f30_419b_825c_35450877ad26|GLCD (4D Goldelox)]]

 

| Graphical display component designed to work with the Goldelox range of displays from 4D Systems.

 

|width=30%|[[File:Component Icon 44f742f7_3039_4edb_8e96_717377b85e69.png|Image]] [[Component: ID 44f742f7_3039_4edb_8e96_717377b85e69|GLCD (4D Picaso v1) (EB076)]]

 

 

|width=30%|[[File:Component Icon b710c9a3_b93a_407d_81b2_190b5f6afdf1.png|Image]] [[Component: ID b710c9a3_b93a_407d_81b2_190b5f6afdf1|GLCD (4D Picaso v2) (EB076)]]

 

| Graphical display component designed to work with the Picaso range of displays from 4D Systems.Component based around the uLCD-32PTU display.

 

|width=30%|[[File:Component Icon 79f105db_3eb0_45cb_b3fb_e4b6d6e94358.png|Image]] [[Component: ID 79f105db_3eb0_45cb_b3fb_e4b6d6e94358|GLCD (ILI9163C)]]

 

| Graphical display component designed to work with the ILI9163C 16-bit colour graphical controller IC.

 

|width=30%|[[File:Component Icon 7bd84555_ae51_40cc_8e1a_a7bcba661e52.png|Image]] [[Component: ID 7bd84555_ae51_40cc_8e1a_a7bcba661e52|GLCD (ILI9341 SPI)]]

 

| Graphical display component designed to work with the ILI9341 controller ICBased on the ILI9341 16-bit colour graphical controller IC.Uses the SPI CAL component to allow for faster serial display communications.

 

|width=30%|[[File:Component Icon bc0a0612_ef85_48fb_8960_5e78f4083df1.png|Image]] [[Component: ID bc0a0612_ef85_48fb_8960_5e78f4083df1|GLCD (ILI9341)]]

 

| Graphical display component designed to work with the ILI9341 controller ICBased on the ILI9341 16-bit colour graphical controller IC.Supports Serial, 8-bit and 16-bit interface modes.

 

|width=30%|[[File:Component Icon 641b19bc_b941_46de_843d_229ca347466d.png|Image]] [[Component: ID 641b19bc_b941_46de_843d_229ca347466d|GLCD (LS020)]]

 

| Graphical display component designed to work with the LS020 display as used on the Siemens S65.

 

|width=30%|[[File:Component Icon 0a432f5f_d9a0_4726_9b42_18de4eeddfd8.png|Image]] [[Component: ID 0a432f5f_d9a0_4726_9b42_18de4eeddfd8|GLCD (SSD1289)]]

 

| Graphical display component based on the SSD1289 16-bit colour graphical controller IC.

 

|width=30%|[[File:Component Icon e635704b_9d69_466c_be7f_a03543f011a6.png|Image]] [[Component: ID e635704b_9d69_466c_be7f_a03543f011a6|GLCD (SSD1331) (SSD1331)]]

 

| Graphical display component based on the SSD1331 colour graphical controller IC.

 

|width=30%|[[File:Component Icon 8af7f5ec_2e7a_4080_9566_b816c24ebbfa.png|Image]] [[Component: ID 8af7f5ec_2e7a_4080_9566_b816c24ebbfa|GLCD (SSD1351 SPI)]]

 

| Graphical display component based on the SSD1351 16-bit colour graphical controller IC.Controlled using Hardware or Software SPI to acheive high speed communications.

 

|width=30%|[[File:Component Icon fd1a193b_149f_4ba8_b1ce_ce39ca863975.png|Image]] [[Component: ID fd1a193b_149f_4ba8_b1ce_ce39ca863975|GLCD (SSD1351)]]

 

| Graphical display component based on the SSD1251 16-bit colour graphical controller IC.

 

|width=30%|[[File:Component Icon 9d414a42_fd9b_4afd_9493_dbf80eece14a.png|Image]] [[Component: ID 9d414a42_fd9b_4afd_9493_dbf80eece14a|GLCD (SSD1963) Parallel]]

 

| Graphical display component designed to work with the SSD1963 controller ICBased on the SSD1963 16-bit colour graphical controller IC.

 

|width=30%|[[File:Component Icon 4e30b15e_2507_4583_995d_b2056e04a286.png|Image]] [[Component: ID 4e30b15e_2507_4583_995d_b2056e04a286|GLCD (ST7789V)]]

 

| Graphical display component designed to work with the ST7789V 16-bit colour graphical controller IC.

 

|width=30%|[[File:Component Icon a00b9a94_9608_4208_af26_68a94dab336b.png|Image]] [[Component: ID a00b9a94_9608_4208_af26_68a94dab336b|GLCD (STM32F429ZI) (STM32F429ZI)]]

 

| Graphical display component designed to work with the STM32F429ZI Discovery board from ST. Compatible with the large display and resistive touch input.

 

|width=30%|[[File:Component Icon 5bd73e47_8060_4677_a1a3_6191ceb924b7.png|Image]] [[Component: ID 5bd73e47_8060_4677_a1a3_6191ceb924b7|GLCD (STM32F469NI) (STM32F469NI)]]

 

| Graphical display component designed to work with the STM32F469NI Discovery board from ST. Compatible with the large display and capacitive touch input.

 

|width=30%|[[File:Component Icon 6a2520bc_d8dd_4001_937e_21925253291a.png|Image]] [[Component: ID 6a2520bc_d8dd_4001_937e_21925253291a|GLCD (STM32F746NG) (STM32F746NG)]]

 

| Graphical display component designed to work with the STM32F746NG Discovery board from ST. Compatible with the large display and capacitive touch input.

 

|width=30%|[[File:Component Icon 756045fb_388b_4dbb_8f10_5136de8bfacb.png|Image]] [[Component: ID 756045fb_388b_4dbb_8f10_5136de8bfacb|Nextion Display]]

 

| A simple libray to interface a Nextion display.The elements on the nextion display are built using the Nextion  Editor software and uploaded to the display.The component can then interact with the display elements.

 

|width=30%|[[File:Component Icon cbfb3c21_f13d_488d_9b90_400c8d4fc605.png|Image]] [[Component: ID cbfb3c21_f13d_488d_9b90_400c8d4fc605|Display Manager]]

 

|width=30%|[[File:Component Icon b02b7c75_53cb_4be4_871f_61be633d898c.png|Image]] [[Component: ID b02b7c75_53cb_4be4_871f_61be633d898c|GLCD Bitmap Drawer FAT]]

 

| A component to simplify the process of drawing bitmap images to a graphical display.Reads Bitmap files directly from a SD card formatted with a FAT file system.Compatible with 24-bit &  Monochrome Bitmaps.The gLCD object property specifies which LCD component to draw the bitmap to.Compatible with GLCD, NeoPixel, MIACv3, HT16K33

 

|width=30%|[[File:Component Icon 52dd90bd_fec9_4ee5_934c_e4b2297168a5.png|Image]] [[Component: ID 52dd90bd_fec9_4ee5_934c_e4b2297168a5|GLCD Bitmap Drawer ROM]]

 

| A component to simplify the process of drawing bitmap images to a graphical display.Stores up to 10 bitmap images inside ROM based look up tables.Compatible with 24-bit / 256 Colour / 16 Colour /  Monochrome Bitmaps.The gLCD object property specifies which LCD component to draw the bitmap to.Compatible with GLCD, NeoPixel, MIACv3, HT16K33

 

|width=30%|[[File:Component Icon d4994410_ca95_4d1c_8d57_542d48a21d58.png|Image]] [[Component: ID d4994410_ca95_4d1c_8d57_542d48a21d58|GLCD Graph Creator]]

 

| A component to simplify the process of drawing graphs and charts using a graphical LCD.

 

|width=30%|[[File:Component Icon 7b198227_81d6_404c_a2d4_ce1e59ef84f8.png|Image]] [[Component: ID 7b198227_81d6_404c_a2d4_ce1e59ef84f8|GLCD Graph Creator XY]]

 

| A component to simplify the process of drawing XY graphs and charts using a graphical LCD.

 

|width=30%|[[File:Component Icon 9e0fa7e4_0c8c_485d_98c4_6f0ef8e57d40.png|Image]] [[Component: ID 9e0fa7e4_0c8c_485d_98c4_6f0ef8e57d40|GLCD Textfield]]

 

| A component to simplify the process of drawing text to a graphical display.Allows the graphical LCD to be used more like a standard alphanumeric display.Compatible with the Graphical LCDs.