You signed in with another tab or window. Reload to refresh your session.You signed out in another tab or window. Reload to refresh your session.You switched accounts on another tab or window. Reload to refresh your session.Dismiss alert
Copy file name to clipboardExpand all lines: content/hardware/09.kits/maker/plug-and-make-kit/datasheet/datasheet.md
+65-68Lines changed: 65 additions & 68 deletions
Display the source diff
Display the rich diff
Original file line number
Diff line number
Diff line change
@@ -30,9 +30,9 @@ The Plug and Make Kit, featuring the Arduino UNO R4 WiFi, offers a seamless and
30
30
31
31
## Features
32
32
33
-
The Plug and Make Kit offers an intuitive and effortless introduction to the world of IoT and electronics. Featuring the powerful Arduino UNO R4 WiFi, this kit enables seamless integration with the Arduino Cloud for a smooth, wireless experience. With its array of modular sensors and components connectable via I2C Qwiic cables, the kit allows for easy customization of your projects. Equipped with a diverse range of sensors and interactive modules, this kit provides the tools you need to create dynamic and engaging projects with ease. Perfect for both beginners and experienced makers, the Plug and Make Kit empowers you to explore and innovate effortlessly.
33
+
The Plug and Make Kit offers an intuitive and effortless introduction to the world of IoT and electronics. Featuring the powerful Arduino UNO R4 WiFi, this kit enables seamless integration with the Arduino Cloud for a smooth, wireless experience. With its array of modular sensors and components connectable via I2C Qwiic cables, the kit allows for easy customization of your projects. Equipped with a diverse range of sensors and interactive modules, this kit provides the tools you need to create dynamic and engaging projects with ease. Perfect for both beginners and experienced makers.
@@ -95,7 +92,7 @@ The Plug and Make Kit offers an intuitive and effortless introduction to the wor
95
92
96
93
**Note:** V<sub>DD</sub> controls the logic level and is connected to the 5V power rail. V<sub>AREF</sub> is for the analog logic.
97
94
98
-
## Functional Overview
95
+
## Functional Overview - Arduino UNO R4 WiFi
99
96
100
97
### Pinout
101
98
@@ -155,11 +152,11 @@ Layout for dimensions and mounting hole locations for secure attachment
155
152
156
153
157
154
158
-
###Plate Node
155
+
## Plate Node
159
156
160
157
The Plate Node is designed to provide a stable and secure mounting solution for your Arduino UNO R4 WiFi and additional nodes. Measuring 140x140x1.6 mm with 3.5 mm holes, it ensures that your setup remains firm and organized, making it easier to manage your components and connections, particularly useful in complex projects where multiple sensors and modules need to be fixed in place to ensure consistent performance.
161
158
162
-
####Mechanical Information
159
+
### Mechanical Information
163
160
164
161
165
162
@@ -168,17 +165,17 @@ The Plate Node is designed to provide a stable and secure mounting solution for
168
165
| Dimensions | 140x140x1.6 mm |
169
166
| Holes | 3.5 mm |
170
167
171
-
###Modules
168
+
## Modules
172
169
173
170
The Plug and Make Kit modules offer a versatile and user-friendly introduction to IoT and electronics. Designed for seamless integration, these modules allow for easy expansion with additional sensors and components, providing a flexible platform to meet diverse project requirements. The modules can be easily connected using Qwiic cables, enabling straightforward daisy-chaining of multiple modules via I2C. This design makes it perfect for both beginners and advanced users, enabling them to experiment and create with ease.
174
171
175
-
## General Characteristics
172
+
###General Characteristics
176
173
177
174
The Plug and Make Kit modules provide a straightforward introduction to IoT and electronics. These modules connect easily using Qwiic cables for I2C communication, simplifying setup. This modular design is ideal for both beginners and experienced users.
178
175
179
176
All modules share common features such as standardized connectors, blue solder mask, and consistent mechanical dimensions and hole locations, ensuring compatibility.
180
177
181
-
### Mechanical Information
178
+
####Mechanical Information
182
179
183
180
- Board dimensions: 41 mm x 25.36 mm
184
181
- Board thickness: 1.6 mm, tolerance ± 0.2 mm
@@ -189,25 +186,25 @@ All modules share common features such as standardized connectors, blue solder m
189
186
190
187
191
188
192
-
### I2C Side Connectors
189
+
####I2C Side Connectors
193
190
194
191
At least one 4-pin surface mount connectors from the JST SM Series with a 1.0 mm pitch.
195
192
196
-
## Modules with dedicated I2C Interface Controller
193
+
###Modules with dedicated I2C Interface Controller
197
194
198
195
These modules use an additional chip to handle I2C communication when there is a lack of native I2C support, ensuring the experience is consistent across every module within the Plug and Make Kit.
199
196
200
-
### Pull-up Resistors
197
+
####Pull-up Resistors
201
198
202
199
These modules have pads for optional I2C pull-up mounting. No resistors are mounted by default:
The MOVEMENT module, featuring the LSM6DSOXTR sensor, measures acceleration, rotation, and temperature, providing comprehensive data for motion detection applications. It's ideal for projects involving gesture recognition, pedometers, and vibration monitoring.
@@ -219,7 +216,7 @@ The MOVEMENT module, featuring the LSM6DSOXTR sensor, measures acceleration, rot
219
216
| Resolution | Accel: 0.061 mg/LSB to 0.488 mg/LSB, Gyro: 4.375 mdps/LSB to 70 mdps/LSB |
220
217
| Communication | SPI, I2C, MIPI I3CSM |
221
218
222
-
### Pinout
219
+
####Pinout
223
220
224
221
225
222
@@ -253,15 +250,15 @@ It is possible to make VDDIO independent from 3V3 by cutting its solder jumper.
253
250
254
251
LSM6DSOXTR interrupts INT1 and INT2 are available on the header.
255
252
256
-
### Mechanical Information
253
+
####Mechanical Information
257
254
258
255
259
256
260
-
## Distance
257
+
###Distance
261
258
262
259
The DISTANCE module, featuring the VL53L4CDV0DH/1 sensor, provides accurate distance measurements using time-of-flight technology. It's perfect for applications requiring precise distance sensing, such as robotics and proximity sensors.
@@ -296,18 +293,18 @@ The above pads are generic to all modules and they are on the same bus as the Qw
296
293
| XSHUT | XSHUT_1 | Shutdown (Sensor) |
297
294
298
295
These provide a place to mount header pins if desired.
299
-
GPIO1 open drain interrupt output, with onboard 10kΩ pullup to 3.3 V.
300
-
XSHUT active low digital input, with onboard 10kΩ pullup to 3.3 V.
296
+
GPIO1 open drain interrupt output, with onboard 10 kΩ pullup to 3.3 V.
297
+
XSHUT active low digital input, with onboard 10 kΩ pullup to 3.3 V.
301
298
302
-
### Mechanical Information
299
+
####Mechanical Information
303
300
304
301
305
302
306
-
## Thermo
303
+
###Thermo
307
304
308
305
The THERMO module, featuring the HS3003 sensor, measures both temperature and humidity. It's suitable for environmental monitoring and climate control applications.
@@ -334,15 +331,15 @@ The THERMO module, featuring the HS3003 sensor, measures both temperature and hu
334
331
335
332
The above pads are generic to all modules and they are on the same bus as the Qwiic connectors. These provide a place to mount header pins if desired.
336
333
337
-
### Mechanical Information
334
+
####Mechanical Information
338
335
339
336
340
337
341
-
## Knob
338
+
###Knob
342
339
343
-
The KNOB module includes a quadrature rotary encoder with an SPST switch, using the STM32C011F4 chip for digital communication. This setup allows precise control for user interfaces and adjustments in various applications. All of the modules that use dedicated I2C interface controller ICs have the footprints to provide the option to mount I2C pullups, but no pullups are mounted.
340
+
The KNOB module includes a quadrature rotary encoder with an SPST switch, using the STM32C011F4 chip for digital communication. This setup allows precise control for user interfaces and adjustments in various applications. All of the modules that use dedicated I2C interface controllers have the footprints to provide the option to mount I2C pullups, but no pullups are mounted.
@@ -355,7 +352,7 @@ The KNOB module includes a quadrature rotary encoder with an SPST switch, using
355
352
| Resolution | 12-bit ADC |
356
353
| Communication | I2C, USART, SPI, I2S |
357
354
358
-
### Pinout
355
+
####Pinout
359
356
360
357
361
358
@@ -383,17 +380,17 @@ The above pads are generic to all modules and they are on the same bus as the Qw
383
380
| SWCLK | PA14_SWCLK_BOOT0_1 | SWD Clock |
384
381
| PF2 | PF2_NRST_1 | NRST |
385
382
386
-
This header can be used to read the encoder from an external controller, to use the microcontroller pins for other purposes, or to reprogram the microcontroller using its SWD interface. These provide a place to mount header pins if desired.
383
+
This header can be used to read the encoder from an external controller, to use the dedicated I2C IC other purposes, or to reprogram the chip its SWD interface. These provide a place to mount header pins if desired.
387
384
388
-
### Mechanical Information
385
+
####Mechanical Information
389
386
390
387
391
388
392
-
## Buzzer
389
+
###Buzzer
393
390
394
-
The BUZZER module contains a single buzzer and uses the STM32C011F4 chip for digital communication, making it suitable for producing sound alerts and notifications in various projects. All of the modules that use dedicated I2C interface controller ICs have the footprints to provide the option to mount I2C pullups, but no pullups are mounted.
391
+
The BUZZER module contains a single buzzer and uses the STM32C011F4 chip for digital communication, making it suitable for producing sound alerts and notifications in various projects. All of the modules that use dedicated I2C interface controllers have the footprints to provide the option to mount I2C pullups, but no pullups are mounted.
@@ -431,17 +428,17 @@ The above pads are generic to all modules and they are on the same bus as the Qw
431
428
| SWCLK | PA14_SWCLK_BOOT0_1 | SWD Clock |
432
429
| PF2 | PF2_NRST_1 | NRST |
433
430
434
-
This header can be used to actuate the buzzer from an external 3.3 V source, to use the microcontroller pins for other purposes, or to reprogram the microcontroller using its SWD interface. These provide a place to mount header pins if desired.
431
+
This header can be used to actuate the buzzer from an external 3.3 V source, to use the dedicated I2C IC other purposes, or to reprogram the chip its SWD interface. These provide a place to mount header pins if desired.
435
432
436
-
### Mechanical Information
433
+
####Mechanical Information
437
434
438
435
439
436
440
-
## Pixels
437
+
###Pixels
441
438
442
-
The PIXELS module includes eight LC8822-2020 RGB LEDs and uses the STM32C011F4 chip for digital communication, perfect for creating colorful displays and lighting effects in your projects. All of the modules that use dedicated I2C interface controller ICs have the footprints to provide the option to mount I2C pullups, but no pullups are mounted.
439
+
The PIXELS module includes eight LC8822-2020 RGB LEDs and uses the STM32C011F4 chip for digital communication, perfect for creating colorful displays and lighting effects in your projects. All of the modules that use dedicated I2C interface controllers have the footprints to provide the option to mount I2C pullups, but no pullups are mounted.
@@ -484,15 +481,15 @@ The header can be used to add more LC8822-2020 to the chain.
484
481
485
482
It also has other I2C interface controller IC pins usable for other purposes or to reprogram it using its SWD interface. These provide a place to mount header pins if desired.
486
483
487
-
### Mechanical Information
484
+
####Mechanical Information
488
485
489
486
490
487
491
-
## Buttons
488
+
###Buttons
492
489
493
-
The BUTTONS module includes three SPST push buttons and three yellow LEDs, using the STM32C011F4 chip for digital communication. It's ideal for creating interactive input interfaces. All of the modules that use dedicated I2C interface controller ICs have the footprints to provide the option to mount I2C pullups, but no pullups are mounted.
490
+
The BUTTONS module includes three SPST push buttons and three yellow LEDs, using the STM32C011F4 chip for digital communication. It's ideal for creating interactive input interfaces. All of the modules that use dedicated I2C interface controllers have the footprints to provide the option to mount I2C pullups, but no pullups are mounted.
@@ -534,7 +531,7 @@ The above pads are generic to all modules and they are on the same bus as the Qw
534
531
535
532
This header can be used to read the pushbuttons status from an external 3.3 V controller, to use the I2C interface IC pins for other purposes, or to reprogram it using the SWD interface. These provide a place to mount header pins if desired.
536
533
537
-
### Mechanical Information
534
+
####Mechanical Information
538
535
539
536
540
537
@@ -551,10 +548,10 @@ The Plug and Make Kit is compatible with the Modulino library, which can be foun
551
548
| MOVEMENT | LSM6DSOXTR | 0x6A | 0x6A, 0x6B |
552
549
| DISTANCE | VL53L4CDV0DH/1 | 0x29 | - |
553
550
| THERMO | HS3003 | 0x44 | - |
554
-
| BUZZER |ADD BUZZER MODEL TODO | 0x3C | - |
555
-
| KNOB |Quadrature Rotary Encoder| 0x76 | - |
551
+
| BUZZER |PKLCS1212E4001| 0x3C | - |
552
+
| KNOB |PEC11J-9215F-S0015 | 0x76 | - |
556
553
| PIXELS | Eight LC8822-2020 | 0x6C | - |
557
-
| BUTTONS |3 SPST Push Buttons | 0x7C | - |
554
+
| BUTTONS |Three SPST Push Buttons | 0x7C | - |
558
555
559
556
With the provided sketch, users can change the default I2C address of the dedicated I2C interface controller firmware. Assigning different addresses allows users to connect multiple boards of the same type in a chain.
560
557
To facilitate this, a white rectangle is positioned on the bottom silk of the board, where users can write the new I2C address directly on the board itself.
0 commit comments