A kind of accumulation type MOS varactor diode based on tsv and its preparation method
A varactor, accumulation-type technology, used in semiconductor/solid-state device manufacturing, advanced technology, climate sustainability, etc., can solve problems such as large signal loss, and achieve high quality factor, no signal loss, and low parasitic resistance. Effect
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[0033] A kind of preparation method of the accumulation type MOS varactor diode based on TSV of the present invention, comprises the following steps:
[0034] Step 1: Etch vertical through-holes 6 on the P-type silicon substrate 5 by means of reactive ions; use fluoride or chloride reactive gases to decompose fluorine atoms or chlorine atoms in glow discharge, and connect with the silicon substrate The silicon atoms on the surface of the bottom 5 react to form gaseous products to complete the etching of the vertical through hole 6; the pressure of the reaction gas is 14-31Pa, the flow rate of the reaction gas is 11-42 ml / min, and the radio frequency power range is 210-360W; During the process, heat exchangers and helium cooling technology are used to control the temperature of the silicon substrate to ensure that the temperature of the entire silicon substrate 5 during the etching process is uniform and stable at about 145°C.
[0035] Step 2, prepare the dielectric layer 2 on ...
Embodiment 1
[0041] The preparation of a TSV-based accumulation MOS varactor diode specifically includes the following steps:
[0042] Step 1: Etch vertical through-holes 6 on the P-type silicon substrate 5 by means of reactive ions; use chloride reactive gas to decompose chlorine atoms in glow discharge, and silicon atoms on the surface of the silicon substrate 5 The reaction generates gaseous products to complete the etching of the vertical through hole 6; the reaction gas pressure is 14Pa, the reaction gas flow rate is 16 ml / min, and the radio frequency power range is 260W; during the etching process, heat exchanger and helium cooling technology are used Control the temperature of the silicon substrate to ensure that the temperature of the entire silicon substrate 5 during the etching process is uniform and stable at about 145°C;
[0043] Step 2, on the inner wall of the through hole 6, the annular dielectric layer 2 is prepared by the atmospheric pressure chemical vapor deposition meth...
Embodiment 2
[0050] The preparation of a TSV-based accumulation MOS varactor diode specifically includes the following steps:
[0051] Step 1: Etch vertical through holes 6 on the P-type silicon substrate 5 by means of reactive ions; use fluoride reactive gas to decompose fluorine atoms in the glow discharge, and the silicon atoms on the surface of the silicon substrate 5 The reaction generates gaseous products to complete the etching of the vertical through hole 6; the reaction gas pressure is 24Pa, the reaction gas flow rate is 20 ml / min, and the radio frequency power range is 300W; during the etching process, heat exchangers and helium cooling technology are used Control the temperature of the silicon substrate to ensure that the temperature of the entire silicon substrate 5 during the etching process is uniform and stable at about 145°C;
[0052] Step 2, on the inner wall of the through hole 6, the annular dielectric layer 2 is prepared by the atmospheric pressure chemical vapor deposi...
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