摘要:
This invention relates to a prepreg having a low thermal expansion coefficient in plane direction and a high rigidity, and more particularly to a prepreg comprising a glass cloth (A), and a resin composition including a cyanate ester resin (B), a non-halogen based epoxy resin (C) and an inorganic filler (D), wherein the glass cloth (A) is characterized that when the weight per 1 m2 is W (g/m2), the thickness is t (μm), the number of warp threads per inch is X (thread/inch), and the number of weft threads per inch is Y (thread/inch), the total of X and Y is 150 to 240, t is 17 to 35, and the value of W/t as the apparent density is 1.1 to 1.5, and that the volume fraction of the glass cloth (A) in the prepreg is 32% to 42%.
摘要翻译:本发明涉及一种在平面方向上具有低热膨胀系数和高刚性的预浸料,更具体地涉及包含玻璃布(A)的预浸料,以及包含氰酸酯树脂(B),非水性树脂 卤素系环氧树脂(C)和无机填料(D),其中,玻璃布(A)的特征在于,当1m 2的重量为W(g / m 2)时,厚度为t(μm) 每英寸经纱为X(螺纹/英寸),每英寸纬纱数为Y(螺纹/英寸),X和Y的总和为150〜240,t为17〜35,W / t,表观密度为1.1〜1.5,玻璃布(A)在预浸料中的体积分数为32〜42%。
摘要:
This invention relates to a method for storing a naphthol aralkyl type cyanate ester resin solution, which is difficult to precipitate due to long term storage in a solution state, and particularly relates to a method for storing a naphthol aralkyl type cyanate ester resin solution (AB), which comprises: preparing (i) a naphthol aralkyl type cyanate ester resin solution (AB) comprising a naphthol aralkyl type cyanate ester resin (A), a maleimide compound (B) and a solvent, (ii) a naphthol aralkyl type cyanate ester resin solution (AB) comprising a prepolymer of a naphthol aralkyl type cyanate ester resin (A), a maleimide compound (B) and a solvent, or (iii) a naphthol aralkyl type cyanate ester resin solution (AB) comprising a prepolymer of a naphthol aralkyl type cyanate ester resin (A) and a maleimide compound (B), and a solvent, and; storing the resin solution (AB).
摘要:
A CDMA receiving device is provided which can prevent erroneous determination of an SFN detection. The CDMA receiving device (1) performs detection of a slot boundary in a slot timing detection unit (14), and performs detection of frame timing and code group in a code group identification unit (15), with regard to each slot timing detected in this way. The CDMA receiving device (1) uses a P-CPICH to detect scrambling code in a scrambling code identification unit (16) from the detected frame timing and code group. The CDMA receiving device (1) performs detection of SFN in a broadcast channel decoding unit (17) from the frame timing and the scrambling code. A P-CCPCH is used in the detection of the SFN. The SFN is included in the P-CCPCH and it is possible to detect SFN timing of a base station by decoding a BCH.
摘要:
A CDMA receiving device is provided which can prevent erroneous determination of an SFN detection. The CDMA receiving device (1) performs detection of a slot boundary in a slot timing detection unit (14), and performs detection of frame timing and code group in a code group identification unit (15), with regard to each slot timing detected in this way. The CDMA receiving device (1) uses a P-CPICH to detect scrambling code in a scrambling code identification unit (16) from the detected frame timing and code group. The CDMA receiving device (1) performs detection of SFN in a broadcast channel decoding unit (17) from the frame timing and the scrambling code. A P-CCPCH is used in the detection of the SFN. The SFN is included in the P-CCPCH and it is possible to detect SFN timing of a base station by decoding a BCH.
摘要:
A receiving apparatus adjusts a path search window width in path search processing according to the saved timing information, after saving timing information detected at the time of cell search processing. A Radio Frequency (RF) unit receives signals which are sent from a base station and transmitted via a plurality of paths (multi-path). A cell search unit detects scrambling codes specific to the base station in received signals and generates timing information corresponding to the multi-path signals when the same scrambling code is detected in a plurality of timings. A path timing memory unit saves each of the timing information for each of the multi-path signals. A path search unit controls a search window width and search start timing in reference to the timing information of the same scrambling code to perform a path search.
摘要:
A receiving equipment adjusts a path search window width in path search processing according to the saved timing information, after saving a timing information detected at the time of cell search processing. A Radio Frequency (RF) unit receives signals which are sent from a base station and transmitted via a plurality of paths (multi-pass). A cell search unit detects scrambling codes peculiar to the base station in received signals and generates timing information corresponding to multi-pass when the same scrambling code is detected in a plurality of timings. A path timing memory unit saves each of the timing information on each of the multi-pass. A path search unit controls search window width and search start timing in reference to the timing information of the same scrambling code to perform path search.
摘要:
This invention relates to a method for storing a naphthol aralkyl type cyanate ester resin solution, which is difficult to precipitate due to long term storage in a solution state, and particularly relates to a method for storing a naphthol aralkyl type cyanate ester resin solution (AB), which comprises: preparing (i) a naphthol aralkyl type cyanate ester resin solution (AB) comprising a naphthol aralkyl type cyanate ester resin (A), a maleimide compound (B) and a solvent, (ii) a naphthol aralkyl type cyanate ester resin solution (AB) comprising a prepolymer of a naphthol aralkyl type cyanate ester resin (A), a maleimide compound (B) and a solvent, or (iii) a naphthol aralkyl type cyanate ester resin solution (AB) comprising a prepolymer of a naphthol aralkyl type cyanate ester resin (A) and a maleimide compound (B), and a solvent, and; storing the resin solution (AB).
摘要:
A cyanate ester compound represented by the formula (1), wherein Ar2 represents a phenylene group, a naphthylene group or a biphenylene group, Ar1 represents a naphthylene group or a biphenylene group when Ar2 is a phenylene group, or Ar1 represents a phenylene group, a naphthylene group or a biphenylene group when Ar2 is a naphthylene group or a biphenylene group, Rx represents all substituents of Ar1, each Rx is the same or different and represents hydrogen, an alkyl group or an aryl group, Ry represents all substituents of Ar2, each Ry is the same or different and represents hydrogen, an alkyl group or an aryl group, and n is an integer of 1 to 50.
摘要:
This invention relates to a prepreg having a low thermal expansion coefficient in plane direction and a high rigidity, and more particularly to a prepreg comprising a glass cloth (A), and a resin composition including a cyanate ester resin (B), a non-halogen based epoxy resin (C) and an inorganic filler (D), wherein the glass cloth (A) is characterized that when the weight per 1 m2 is W (g/m2), the thickness is t (μm), the number of warp threads per inch is X (thread/inch), and the number of weft threads per inch is Y (thread/inch), the total of X and Y is 150 to 240, t is 17 to 35, and the value of W/t as the apparent density is 1.1 to 1.5, and that the volume fraction of the glass cloth (A) in the prepreg is 32% to 42%.
摘要翻译:本发明涉及一种在平面方向上具有低热膨胀系数和高刚性的预浸料,更具体地涉及包含玻璃布(A)的预浸料,以及包含氰酸酯树脂(B),非水性树脂 卤素系环氧树脂(C)和无机填料(D),其中,玻璃布(A)的特征在于,当1m 2的重量为W(g / m 2)时,厚度为t(μm) 每英寸经纱为X(螺纹/英寸),每英寸纬纱数为Y(螺纹/英寸),X和Y的总和为150〜240,t为17〜35,W / t,表观密度为1.1〜1.5,玻璃布(A)在预浸料中的体积分数为32〜42%。
摘要:
A prepreg, for printed wiring boards, comprising a flame resistant resin composition containing a specific cyanate ester resin, a nonhalogen epoxy resin, boehmite which is hardly soluble in acids or alkalis and a silicone powder which is a flame retardant assistant, and a base material, which prepreg retains high-degree flame resistance without a halogen compound and has excellent resistance to chemical, high glass transition temperature, excellent soldering heat resistance and excellent heat resistance after moisture absorption, and a laminate or metal-foil-clad laminate obtained by curing the above prepreg.