các bác qua đây có ai hướng dẫn em match mosfet công suất audio với.em tìm được tài liệu này nhưng lại không biết dịch mong các bác giúp em. MOSFET complementary pair matching VGS I = (V - 4) / R 1 V = 15 adjusting for about a 4V V GS ⇒ 11V across the resistor R1 input MOSFETs: current of 5mA ⇒ R1 = 2.2kΩ Measure the voltage between the gate and the source. Write it down on a piece of masking tape or a sticky label and place it on the part. Keep in mind the caveats about electrostatic discharge: touch ground before you touch the parts. Matching input MOSFETs is critical, because they must share equally the 10mA of bias current from the current source, and they will not do that unless their VGS is matched. At 5mA current, they have an equivalent source resistance of about 15Ω. Assuming we want them to share the current to within 2mA, we calculate the required VGS match as follows. Using the formula V = IR, we see V = 0.002 x 15, which gives us 30mV. The VGS of the input devices should be matched to within 30mV at 5mA current. The matching is only essential within a given pair; you do not have to match the Ps to the Ns, or match to devices in another channel. If you are unable to find input devices matched to within 30mV, you must insert resistance in the source to make up the difference. The resistance is calculated by the difference of the two values of VGS divided by 5mA. For example, if the difference in VP1GS is 100mV, then 0.1/0.005 = 20Ω. You would then place 20Ω in series with the MOSFET source having the lower VGS. output MOSFETs I=20mA ⇒ R1=560Ω No matching is required for these devices; we are just checking to see that the VGS is between 4-4.6V and that they work. We will measure the output device VGS at about 170mA. You can achieve this with either a 56Ω at 2W resistor, or two 100Ω at 1W resistors in parallel. We are looking to obtain a reasonable match within a parallel output bank of each polarity of each channel, so we want two groups of 12 with matched N- channel devices, and two groups of matched P-channel devices. match VGS to within 0.3V If you are unable to find input devices matched to within 30mV, you must insert resistance in the source to make up the difference. The resistance is calculated by the difference of the two values of VGS divided by 5mA. For example, if the difference in V P1GS is 100mV, then 0.1/0.005 = 20Ω. You would then place 20Ω in series with the MOSFET source having the lower VGS. We also measured the transconductance by taking another reading for each device at a higher current (0.5A), just to see what kind of variation we got. The transconductances measured from a low of 1.19 to a high of 1.56, with the average at about 1.35. Within this amplifier's general operating curve, each output will vary its current by about 1.3A for every volt of its V GS change. For 12 devices in parallel, we expect about 15A for each such volt. By placing 1Ω source resistors on each transistor, we can assure adequate current sharing for a fairly wide range of VGS. In Class A bias, we will be operating at about 200mA/device, which will place 0.2V across each source resistor. A variation in V GS will cause the bias to be unequally distributed between the devices. For example, for a 4.6V device in parallel with a 4.5V device, the first will run at about 160mA at 6W and the second at about 240mA at 9W.
Mạch match mosfet của mình, giờ đi mua mosfet đc rồi ^^ Test mấy con 9240/240 anh quang đua, nó nhẩy lung tung ko giống nhau :d
Coi tiếp chổ này để biết thêm em dốt tiếng anh nên chạy làng. http://www.diamondstar.de/transistor_ma ... osfet.html
Cục pin này để match jfet thôi bác ơi !match mosfet cần dòng lớn hơn vd : amcam match 1A bác phải match ở tại điểm làm việc của nó thì mới chuẩn. Còn jfet thì match ở chế độ bảo hoà , cục pin này mang match mosfet nó nút trong vòng 10 giây là hết điện vậy nên bác đo nó nhảy lung tung là đúng rồi. Nhưng theo hình hướng dẫn trên thì đang match bảo hoà vậy bác phải kẹp fet vào tản nhiệt và dùng nguồn lớn A vào
