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Electrical Characteristics

The electrical characteristic parameters of CI1301, CI1302 and CI1303 are shown in the following table.

Table E-1 Electrical Parameters

Symbol Description Minimum Typical Maximum Unit
VIN5V PMU input pin voltage, generally 5V 3.6 5 5.5 V
AVDD Analog and Codec power supply voltage 2.97 3.3 3.63 V
VDD33 Chip IO power supply voltage 2.97 3.3 3.63 V
VDD11 Chip core power supply voltage 0.99 1.1 1.22 V
VIH Input high voltage, 3.0V ≤ VDD33 ≤ 3.6V 0.7 * VDD33 - - V
VIL Input low voltage, 3.0V ≤ VDD33 ≤ 3.6V - - 0.3 * VDD33 V
VOL Output low voltage @ IOL=12mA - - 0.4 V
VOH Output high voltage @ IOH=20mA 2.4 - - V
I5VIO Driving current when IO (5V withstand voltage) outputs 3.3V 5 - 23 mA
I33VIO IO (3.3V withstand voltage) drive current when outputting 3.3V 12 - 26 mA
Σ IVDD Sum of all IO total currents of the chip - - 180 mA
Pde 5V power supply is adopted, 1.1V chip is powered by external DC-DC chip, and the total power consumption of 5V input during normal identification (ambient temperature TA=25 ° C) 70 - 150 mW
Pdi 5V is used to supply power to the chip, and the chip uses internal PMU. The total power consumption of 5V input during normal identification (ambient temperature TA=25 ° C) 145 - 250 mW
RC oscillator accuracy 1 TA=- 40 to 85 ° C - 4 - +3 %
RC oscillator accuracy 2 TA=- 20 to 85 ° C - 3 - +3 %
RC oscillator accuracy 3 TA=- 10 to 70 ° C - 2.5 - +2.5 %
Ta1 The chip uses an external crystal oscillator to adapt to the working environment temperature - 40 - +85
Ta2 The chip uses an internal RC oscillator to adapt to the working environment temperature - 10 - +70
Tst Chip storage environment temperature - 55 - +150

The RC oscillator in the chip will produce a certain temperature drift with the change of ambient temperature. The temperature drift of the clock may affect the application requiring high-precision clock or the accuracy of serial communication with the host computer

If the application scheme requires high-precision clock, or serial communication is required, and the ambient temperature range exceeds - 10 to 70 ℃, it is recommended to use an external crystal oscillator as the clock source, and the working ambient temperature can meet or exceed the industrial standard specifications. If the internal RC oscillator is used as the clock source, the serial port communication baud rate must be less than or equal to 115200bps, and the total deviation from the serial port baud rate of the upper computer shall not exceed 4% to ensure good communication. If the working environment temperature is - 10 to 70 ℃, the baud rate deviation of the matched host computer serial port must not exceed ± 1.5% in this temperature zone. If the working environment temperature is - 20 to 85 ℃, the baud rate deviation of the host computer serial port must not exceed ± 1% in this temperature zone

When the upper computer is designed without crystal oscillator, the communication error should be minimized. Chipintelli can provide a serial port baud rate adaptive scheme, which requires adding a handshake command to the serial port protocol, and the upper computer ensures that it will reply according to the protocol requirements within 50ms after receiving the handshake command. After adding this adaptive scheme, the product can be used in scenarios where the working environment temperature is - 20 to 85 ℃

During SMT welding of chips, please control the temperature and time of the furnace. The temperature curve of a SMT welding is shown in the following figure.

SMT焊接温度曲线

Figure E-1 SMT welding temperature curve of chip

The humidity sensitivity of the chip is MSL3. Please store it according to MSL3 conditions before use. If the storage time after unpacking exceeds the requirements of MSL3, please bake before SMT welding.