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What is a transistor?

Understanding transistors

Understanding MOSFET characteristics

MOSFET Parasitic Capacitance and Temperature Characteristics

Regarding MOSFET electrostatic capacitance

Regarding MOSFET electrostatic capacitance

Parasitic capacitance exists in power MOSFETs as shown in Figure 1.

The Gate terminal in a MOSFET is isolated from the other terminals by an oxide film, resulting in the formation of PN junctions (diode) between the Gate, Drain and Source. Cgs and Cgd are the capacitances of the oxide layers, while Cds is determined by the junction capacitance of the internal diode.

Figure 1

Generally, all 3 capacitances (Ciss,Coss,Crss) listed in Table 1 are included in MOSFET specifications.

Figure 2

As shown in Figure 2 the capacitance characteristics may depend on VDS (Drain-Source voltage). As VDS increases the capacitance decreases.

Temperature Characteristics
Temperature measurement examples are shown in Figure 3 (1)-(3).
There are almost no differences in the capacitance characteristics at different temperatures.

Figure 3 (1)-(3)
MOSFET Switching and Temperature Characteristics

MOSFET Switching Time
The MOSFET will turn ON or OFF some time after the Gate voltage turns ON/OFF. This time is often called the switching time. Various switching times are listed in Table 1. Generally, td(on) , tF , td(off) and tr are specified. ROHM determines the typical values utilizing a measurement circuit like the one shown in Figure 2.

Temperature Characteristics
Measurement examples are shown in Figure 3 (1)-(4).
The switching time is only slightly affected by temperature rise - on the order of 10% at 100°C. In other words, switching characteristics are largely independent of temperature.

Figure 3 (1)-(4)
VGS threshold: VGS(th)

Regarding VGS(th)
VGS(th) is the voltage required between the Gate and Source to turn ON the MOSFET.
In other words, supplying a voltage greater than VGS(th) will turn ON the MOSFET.
To determine the amount of current that flows through the MOSFET when ON it is necessary to refer to the specifications and electrical characteristics for each element.

Table 1 lists the relevant electrical characteristics. In the case of VDS=10V a threshold voltage of between 1.0V and 2.5V is required for an ID of 1mA.

Table 1: Electrical Characteristics

ID-VGS and Temperature Characteristics

ID-VGS and threshold temperature characteristics examples are shown in Figures 1 and 2.
As seen in Figure 1, a large Gate voltage is required for large current flow.
Although models listed in Table 1 feature a threshold value less than 2.5V, 4V drive is recommended.
Please ensure a sufficient Gate voltage to turn the MOSFET ON.

Referring to Figure 2 we see that the threshold value decreases in proportion with the temperature.
Therefore, the element channel temperature can be calculated by monitoring the change in threshold voltage.

ID-VGS and Temperature Characteristics