ZHCSOU8B August 2021 – February 2022 MCT8316A
PRODUCTION DATA
Figure 9-1 shows the typical schematic of MCT8316AV.
Table 9-1 lists the recommended values of the external components for MCT8316A.
COMPONENTS | PIN 1 | PIN 2 | RECOMMENDED |
---|---|---|---|
CVM1 | VM | PGND | X5R or X7R, 0.1-µF, TI recommends a capacitor voltage rating at least twice the normal operating voltage of the device |
CVM2 | VM | PGND | ≥ 10-µF, TI recommends a capacitor voltage rating at least twice the normal operating voltage of the device |
CCP | CP | VM | X5R or X7R, 16-V, 1-µF capacitor |
CFLY | CPH | CPL | X5R or X7R, 47-nF, TI recommends a capacitor voltage rating at least twice the normal operating voltage of the pin |
CAVDD | AVDD | AGND | X5R or X7R, 1-µF, ≥ 6.3-V. In order for AVDD to accurately regulate output voltage, capacitor should have effective capacitance between 0.7-µF to 1.3-µF at 3.3-V across operating temperature. |
CDVDD | AVDD | AGND | X5R or X7R, 1-µF, ≥ 4-V. In order for DVDD to accurately regulate output voltage, capacitor should have effective capacitance between 0.6-µF to 1.3-µF at 1.5-V across operating temperature. |
CBK | SW_BK | GND_BK | X5R or X7R, buck-output rated capacitor |
LBK | SW_BK | FB_BK | Buck-output inductor |
RFG | 1.8 to 5-V Supply | FG | 5.1-kΩ, Pull-up resistor |
RnFAULT | 1.8 to 5-V Supply | nFAULT | 5.1-kΩ, Pull-up resistor |
RSDA | 1.8 to 3.3-V Supply | SDA | 5.1-kΩ, Pull-up resistor |
RSCL | 1.8 to 3.3-V Supply | SCL | 5.1-kΩ, Pull-up resistor |
Parameter | Min | Max | Unit |
---|---|---|---|
Motor voltage | 4.5 | 35 | V |
Motor electrical speed | - | 3000 | Hz |
Peak motor phase current | - | 8 | A |
Default EEPROM configuration for MCT8316A is listed in Table 9-3. Default values are chosen for reliable motor startup and closed loop operation. Refer to MCT8316A tuning guide which provides step by step procedure to tune a 3-phase BLDC motor in closed loop, conform to use-case and explore features in the device.
Address Name | Address | Recommended Value |
ISD_CONFIG | 0x00000080 | 0x6EC4C100 |
MOTOR_STARTUP1 | 0x00000082 | 0x2EA610E4 |
MOTOR_STARTUP2 | 0x00000084 | 0x1221109C |
CLOSED_LOOP1 | 0x00000086 | 0x0C321200 |
CLOSED_LOOP2 | 0x00000088 | 0x024224B0 |
CLOSED_LOOP3 | 0x0000008A | 0x4CCC03E0 |
CLOSED_LOOP4 | 0x0000008C | 0x000CE944 |
CONST_SPEED | 0x0000008E | 0x00A00510 |
CONST_PWR | 0x00000090 | 0x5DC04C84 |
FAULT_CONFIG1 | 0x00000092 | 0x60F43025 |
FAULT_CONFIG2 | 0x00000094 | 0x7F87A009 |
TRAP_CONFIG1 | 0x0000009A | 0x0548A186 |
TRAP_CONFIG2 | 0x0000009C | 0x3A840000 |
150_DEG_TWO_PH_PROFILE | 0x00000096 | 0x6ADB44A6 |
150_DEG_THREE_PH_PROFILE | 0x00000098 | 0x392DFF80 |
PIN_CONFIG1 | 0x000000A4 | 0x2D720600 |
PIN_CONFIG2 | 0x000000A6 | 0x08000000 |
DEVICE_CONFIG | 0x000000A8 | 0x7FFF0000 |
PERIPH_CONFIG | 0x000000AA | 0x00000000 |
GD_CONFIG1 | 0x000000AC | 0x1C440000 |
GD_CONFIG2 | 0x000000AE | 0x00000000 |
Once the device EEPROM is programmed with the desired configuration, device can be operated stand-alone and I2C serial interface is not required anymore. Speed can be commanded using SPEED pin.
Below are the two essential parameters that are required to spin the motor in closed loop.