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Tarot 12S distribution board TL2996
In stock
Power distribution management module 12S power supply is composed of two 6S batteries in series,so two batteries need to be plugged in to provide power supply.
If only 6S power supply is required,only the leftmost red positive pole and the rightmost black negative pole are connected,and the two red and black wires in the middle are short-circuited series connection points,no need to connect
Tarot 1765 Carbon Fibre Prop Pair ( TL2948)
In stock
YOUR PURCHASE INCLUDES:
2x Cw propeller
2x CCW propeller
4x Copper sleeve (internal and external high 3mm * 5mm * 3.5mm)
Tarot TL2955 330KV 4008 BLDC Motor
In stock
Features:
- Powerful brushless motor for multirotor applications
- Stator size of 4008 for increased torque and power
- High-quality construction for long-lasting performance
- Dual-bearing support for smooth and stable operation
- Neodymium magnets for improved power output and efficiency
- Multiple mounting options for easy installation
- Efficient cooling mechanisms for optimal performance
- High voltage compatibility for use with high voltage power systems
- Suitable for heavy lift applications requiring a strong and reliable motor.
Tarot TL2955 4008MT motor
In stock
Tarot 4008 TL2955 330KV Martin Brushless Motor is an electric motor that works with RC cars. It is manufactured by Tarot and imported by Tarot R/C. The motor is compatible with other similar products, like the TarotTarot 4020 TL2375 280KV brushless motor. This motor is also a replacement for the TarotTarot 5008 TL2955 330KV brushless motor, which means you can replace your old motor with this new one.
Tarot 4008 TL2955 330KV Martin Brushless Motor is an excellent, high-quality motor that you will be more excited about. It’s a great choice for many reasons, but the most important is probably its size and quality.
Tattu 22.2v – 16000mAh 15C – 6s
In stock
The Tattu Li-Po batteries are very sensitive and can get damaged easily and permanently if not used properly. Charging batteries with non standard chargers will ensure reduction in battery life and efficiency. We strongly recommend to charge battery with our chargers or only standard chargers designed to charge LiPo batteries. If the batteries are drained beyond their discharge capacity they will get heated and will get damaged permanently. Ecah battery is rated for discharge current. If the battery is rated at 2000mAH, 2C it means that it can discharge 4 Ampere (2000ma x 2) current at max. If the load is above 4A the battery will heat up and loose its efficiency to store charge over a period. Over discharging of battery may also create problem. If the voltage of battery reduces to 3.5V per cell (i.e. 10.5V or below for 12.4V battery) the battery is considered discharged. If still battery is connected the battery may get damaged.
TATTU Pro 44.4V 22000mAh 25C 12S1P Lipo Smart Battery Pack with AS150U-F Plug
In stock
TATTU Pro 44.4V 25C Lipo battery with good heat dissipation and waterproof performance, making the drones work more smoothly and safely, this 22000mAh 12S1P Lipo is best suited for power system, surpport 3C fast charging etc. There are many smart features, which include data collection, safety reminder, power calculation, automatic balancing, charging reminder, abnormal-status alarm, data transmission and more.
TB6560 3A Stepper Motor Driver Board Single-Axis
In stock
TB6560 Driver Board 3A CNC Router Single 1 Axis Controller Stepper Motor is very easy to use requires no special instructions. The module features Semi-flow mode adjustable, semi-flow current adjustable, not the general design on the market, with a variety of semi-flow model and semi-flow current setting function.
TB6600 STEPPER MOTOR DRIVER CONTROLLER 4A 9~42V
In stock
TB6600 Arduino stepper motor driver has a wide range of power input, 9~42VDC power supply. And it is able to output 4A peak current, which is enough for the most of stepper motors. The stepper driver supports speed and direction control.
TB6612 BLUE
In stock
Power Pins
- Vmotor – This is the voltage for the motors, not for the logic level. Keep this voltage between 4.5V and 13.5V. This power supply will get noisy so if you have a system with analog readings or RF other noise-sensitive parts, you may need to keep the power supplies seperate (or filtered!)
- Vcc – this is the voltage for the logic levels. Set to the voltage logic you’ll be using on your microcontroller. E.g. for Arduinos, 5V is probably what you want. Can be 2.7V to 5.5V so good for 3V or 5V logic
- GND – This is the shared logic and motor ground. All grounds are connected
Signal in Pins
These are all ‘Vcc logic level’ inputs
- INA1, INA2 – these are the two inputs to the Motor A H-bridges
- PWMA – this is the PWM input for the Motor A H-bridges, if you dont need PWM control, connect this to logic high.
- INB1, INB2 – these are the two inputs to the Motor B H-bridges
- PWMB – this is the PWM input for the Motor B H-bridges, if you dont need PWM control, connect this to logic high.
- STBY – this is the standby pin for quickly disabling both motors, pulled up to Vcc thru a 10K resistor. Connect to ground to disable.
Motor Out Pins
These are ‘Vmotor level’ power outputs
- Motor A – these are the two outputs for motor A, controlled by INA1, INA2 and PWMA
- Motor B – these are the two outputs for motor B, controlled by INB1, INB2 and PWMB
TB6612 RED
In stock
Features :
- Output current: Iout=1.2A(average) / 3.2A (peak)
- Standby control to save power
- CW/CCW/short break/stop motor control modes
- Built-in thermal shutdown circuit and a low voltage detecting circuit
- All pins of the TB6612FNG broken out to 0.1″ spaced pins
- Filtering capacitors on both supply lines
TCA9548A I2C MUX MODULE
In stock
Specification and Features :
- 1-to-8 Bidirectional Translating Switches.
- Supports Hot Insertion.
- Low Standby Current.
- 1-to-8 Bidirectional Translating Switches.
- Active-Low Reset Input.
- Power Up With All Switch Channels Deselected.
- I2C Bus and SMBus Compatible.
- 5-V Tolerant Inputs.
- Latch-Up Performance Exceeds 100 mA Per JESD 78, Class II.
Pin Description :
Power Pins:
- Vin – this is the power pin. Since the sensor chip uses 3-5 VDC. To power, the board, give it the same power as the logic level of your microcontroller – e.g. for a 5V micro like Arduino, use 5V.
- GND – common ground for power and logic.
I2C Control-Side pins :
- SCL – this is the I2C clock pin for the chip itself, connect to your microcontrollers I2C clock line.
- SDA – this is the I2C data pin for the chip itself, connect to your microcontrollers I2C data line.
- RST – this is the reset pin, for resetting the multiplexer chip. Pulled high by default, connect to ground to reset
- A0 A1 A2 – these are the address selection pins for the multiplexer. By default, the multiplexer is at address 0x70 and these three pins are pulled low. Connect them to Vin to set the address to 0x71 – 0x77.
- A0 is the lowest-significant bit (if it is pulled high, it will increase the address by 1).
- A1 is the 2nd-lowest-significant bit (if it is pulled high, it will increase the address by 2).
- A2 is the 3rd-lowest-significant bit (if it is pulled high, it will increase the address by 4).
I2C Multiplexed-Side pins:
- SDx and SCx: There are 8 sets of SDx and SCx pins, from SD0/SC0 to SD7/SC7. These are the multiplexed pins. Each one is a completely separate I2C bus set. So you have 8 I2C devices with identical addresses, as long as they are on one I2C bus each.
- These pins do not have any pullups installed, so if you are using a chip or breakout without I2C pull-ups be sure to add them! Nicely, you can have Vin be 3.3V and have these pins pulled up to 5V (that is, they are 5V compliant).
Program :
We suggest using this little helper to help you select the port
#define TCAADDR 0x70
void tcaselect(uint8_t i) {
if (i > 7) return;
Wire.beginTransmission(TCAADDR);
Wire.write(1 << i);
Wire.endTransmission();
}
You can then call tcaselect(0) thru tcaselect(7) to set up the multiplexer.
Note that you if you happen to have I2C devices with I2C address 0x70, you will need to short one of the Addr pins on the TCA9548 breakout to Vin in order to make it not conflict. Given that you can have 0x70 thru 0x77, just find one that’s free and you’re good to go.
Note : Product may vary in two variants TCA9548A & PCA9548A
Tcrt5000 Module
In stock
This is TCRT 5000 Dual Channel Line Tracking sensor module.
This IR reflective sensor Module used TCRT5000 IR Sensor to detect color and distance. This sensor module consists of an IR transmitter & an IR receiver. IR Transmitter continuously emits IR signal which is then reflected by an obstacle and is then detected by the IR receiver.TCRT5000 Infrared Reflective Sensor Module is often used in line following robots, object sorting Robots because this module can sense if a surface is white or black. The measuring distance range from 1mm to 8mm and the central point is about 2.5mm.
TDS SENSOR DF ROBOT ( IMPORTED )
In stock
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Wide Voltage Input: 3.3~5.5V
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Good Compatibility Output: 0~2.3V analog signal output, compatible with 5V or 3.3V controller
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AC Excitation Source: effectively prevent the probe from polarization
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Waterproof Probe
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Easy to Use: Arduino compatible, simple connection, plug, and play without solderingTDS probe
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Number of Needles: 2
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Total Length: 83cm
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Connection Interface: XH2.54-2P
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Color: Black
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Other: Waterproof Probe
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TDS SENSOR INDIAN
In stock
This is a SeeedStudio Grove TDS Sensor/Meter For Water Quality.
The Grove – TDS Sensor detects the Total Dissolved Solids (TDS) levels in the water which can be used to indicate the water quality. The Grove – TDS Sensor can be applied in water quality applications such as TDS meter, well water, aquarium, hydroponics, etc.
It supports 3.3/5V input voltage and 0 ~ 2.3V Output Voltage making it easy to be compatible with all Arduino Boards. The sensor also provides a waterproof probe, making the testing process much easier to handle.
TEC1-12703 30*30 12V3A
In stock
Thermoelectric coolers also are known as TEC or Peltier Module create a temperature differential on each side. One side gets hot and the other side gets cool. Therefore, they can be used to either warm something up or cool something down, depending on which side you use. You can also take advantage of a temperature differential to generate electricity.
This Peltier works very well as long as you remove the heat from the hot side. After turning on the device, the hot side will heat quickly, the cold side will cool quickly. If you do not remove the heat from the hot side (with a heat sink or other device), the Peltier will quickly reach stasis and do nothing. We recommend using an old computer CPU heatsink or another block of metal to pull heat from the hot side. We were able to use a computer power supply and CPU heatsink to make the cold side so uncomfortable we could not hold our finger to it.
TEC1-12705 PELTIER SENSOR
In stock
This Peltier works very well as long as you remove the heat from the hot side. After turning on the device, the hot side will heat quickly, the cold side will cool quickly. If you do not remove the heat from the hot side (with a heat sink or other device), the Peltier will quickly reach stasis and do nothing. We recommend using an old computer CPU heatsink or another block of metal to pull heat from the hot side. We were able to use a computer power supply and CPU heatsink to make the cold side so uncomfortable we could not hold our finger to it.
A thermoelectric cooling (TEC) module is a semiconductor-based electronic component that functions as a small heat pump. By applying the DC power source to a TEC, heat will be transferred from one side of the module to the other. It creates a cold and hot side. They are widely used in industrial areas, for example, computer CPU, CCDs, portable refrigerators, medical instruments, and so on.
Also Known as Thermoelectric cooling modules, Thermoelectric modules, Peltier modules, Thermoelectric cooling module.
TEC12706 COOLING PELTIER MODULE
In stock
Thermoelectric coolers (TEC or Peltier) create a temperature differential on each side. One side gets hot and the other side gets cool. Therefore, they can be used to either warm something up or cool something down, depending on which side you use. You can also take advantage of a temperature differential to generate electricity.
This Peltier works very well as long as you remove the heat from the hot side. After turning on the device, the hot side will heat quickly, the cold side will cool quickly. If you do not remove the heat from the hot side (with a heat sink or other device), the Peltier will quickly reach stasis and do nothing. We recommend using an old computer CPU heatsink or another block of metal to pull heat from the hot side. We were able to use a computer power supply and CPU heatsink to make the cold side so uncomfortable we could not hold our finger to it.
A thermoelectric cooling (TEC) module is a semiconductor-based electronic component that functions as a small heat pump. By applying the DC power source to a TEC, heat will be transferred from one side of the module to the other. It creates a cold and hot side. They are widely used in industrial areas, for example, computer CPU, CCDs, portable refrigerators, medical instruments, and so on.
There are 127 couples in a single module; a 40mm x 40mm size module is a single-stage module which is designed for cooling and heating up to 90°C applications.
Also Known as Thermoelectric cooling modules, Thermoelectric modules, Peltier modules, Thermoelectric cooling module.
TEC12715 PELTIER MODULE
In stock