OBSSCircuit DescriptionV1.1010/02/94 20:07 CET.Component & analysis parameters of a circuit.TINA 9.3.200.277 SF-TIB(c) Copyright 1993,94,95,96 DesignSoft Inc. 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hh+As305!zunkqCkOPJoCeFHTfONY/aryUJLyKR4DYSKY9XIMADa5OrH60ZTgkZWkNNoEaOABqHSKlJQwu4rUjyMc4p3TPY/G8mH4o6WaUG35syqAGdqsTEIM/FAI8r/8=MGvaIAXfQjdeKS+ARkeeTbbUwgTHe1poQyCLyYEaVY1yyjo6AVSAzDnvGDMkIiWBOxtF3V3oGHQ==7arknlkzKCceog==0jpDhRUgCCM5D0yCx/2PmeIvIyRZyi5qFqo23qBg5A==sAoUYsZAIkfF6Wx9s0NyUQ==!M+CU/C35TFcSejonSAwXh2D3MqgwqSiBhxs=UumBmVlsS8rJQTlJ7LmID+UBYXirOT+dr1X1JUfbXTWVeBoMugMtuLwD4ko/btWTQ+WIVi5xK3Pdaa5h9bA==IHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4sUQ/Q==-OszSLeSteQjx0K0qqM5jVpCUCJU5HbHmab4vzJkF7nn+H3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=z7YriDvYTgA/30SXtIDvINNQpoc=hxs=UumBmVlsS8rLjRiSkD7pphDYe1hxD2yread8wlsMaxxd6DPS6jWsHnlD5if77TZ7nZ47O5N03alCx1R3htbsIIHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4sUQ/Q==OszSLeSteQjx0K0qqM5jVg8iDSk=-ZNxSt78sK38eQY5uinZw2HRwuY62mFh8BiFWbi84dMIyH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=z7YriDvYTgCmfb4rJleIcNVE1i4=hxs=YumBmVlsS8rIgrYUIzAM/QHleagsWtcWju/Rkmmf/LrKqoIrPsIy5XGKt6oXPo3Iyu0Jp0be7tj/3Un7m6sYjHiQ=IHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4sUQ/Q==OszSLeSteQjx0K0qqM5jVg8iDSk=ZNxSt78sK38eQY5uinZw2B/acLg=-uDaSVqPBawqOaHA7zno22UfiaQx9qT2kbfgFLsr1+oloH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=z7YriDvYTgB4yTuUbK+sKvnIZHo=hxs=UumBmVlsS8rLm+RhZicyH06NtCul3oldicN7ghtm14uPNxEZywrdlKcAgczhc0N/COognQPIzDZNVwK9RY5U=IHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4sUQ/Q==-OszSLeSteQjx0K0qqM5jViqx+1IuN73pw72Yp6l9ytDJH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=hGJKahUJIkZZUpDXl2zOodFAUmfghxs=YumBmVlsS8rIWkrwKuY2xBakUpfapRhMRaT31n5srg0vOMUzDAAkx6J8F9ROoFtUTOd6tXFwFWlAV1sdF9hzhbA==IHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4sUQ/Q==OszSLeSteQjx0K0qqM5jVg8iDSk=-ZNxSt78sK38eQY5uinZw2EqNw9upiJZJ54f9+EmngTkEH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=hGJKahUJIkbX6dkTyeab4JZFeV2whxs=YumBmVlsS8rLi4YWK7XxveGZJeHfZAwF55Q50tigKvqcYzN/SHdh3KkzrE8Rv5AFQzh0Dj2y2dGz75qG+/F/xdcDKIHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4sUQ/Q==OszSLeSteQjx0K0qqM5jVg8iDSk=ZNxSt78sK38eQY5uinZw2B/acLg=-uDaSVqPBawqOaHA7zno22f218VtjiFxXaEDb/a/PZUB+H3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=hGJKahUJIkbdWFpMu5Oe1E9OlquOhxs=QumBmVlsS8rKWHc523B8BzLAUZZGqxFp3UrvvnTANfOkjfrsDR6yjH3eLiR9jK1Km+d1kzHU6dBBqTKoNIHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4p8Q/Q==-OszSLeSteQjx0K0qqM5jVpCUCJU5HbHmab4vzJkF7nn+H3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=pmpixFZ66Wvo44uclK2vgGYLhw==hxs=UumBmVlsS8rI7HGP9ftjBjzO0cyb/nMHAQPFPVjqhw+GZJh+7N1DX4BnyekUApkzAYl1VNXAcb5vyCH2vDJs=IHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4p8Q/Q==OszSLeSteQjx0K0qqM5jVg8iDXM=-ZNxSt78sK38eQY5uinZw2HRwuY62mFh8BiFWbi84dMIyH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=pmpixFZ66WtoYjgg5UwW7tnacw==hxs=YumBmVlsS8rLZFPagKvh3Nwi/DPkcdsPT2JUYvUXS+gsZuIxBFkPiZn0IRcqLzXvXM6DhCtbY5pUD52d4qGDXVQ==IHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4p8Q/Q==OszSLeSteQjx0K0qqM5jVg8iDXM=ZNxSt78sK38eQY5uinZw2B/acOI=-uDaSVqPBawqOaHA7zno22UfiaQx9qT2kbfgFLsr1+oloH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=pmpixFZ66WuieCQy6YTQc/b39w==hxs=UumBmVlsS8rJKdJAZ3ROXcyAxjsTBCawq8oZuOT6vYEB4+mqow3xqhgTOVglNNF76pT6pOc+gezTPiT+PIw==IHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4p8Q/Q==-OszSLeSteQjx0K0qqM5jViqx+1IuN73pw72Yp6l9ytDJH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=MCVaPrRAnmcIPKeLHpQUlx4VApo=hxs=UumBmVlsS8rIzp8ewE/5fDXAMPGm7c7TvE9l5JNS6nutC98xJYt9qLfPagH1kn+TAGokk2pSUWq1d1sgNGiLnIHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4p8Q/Q==OszSLeSteQjx0K0qqM5jVg8iDXM=-ZNxSt78sK38eQY5uinZw2EqNw9upiJZJ54f9+EmngTkEH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=MCVaPrRAnmc2bRgqmFjfSLjYzuc=hxs=YumBmVlsS8rLJlt14NH8r28d2dOU3iws4LPBpnj8v8nebXNHODmPMRbeRLJ4XN9YMjO8yrB4wHCR8IrlaLhQjgpw=IHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA4p8Q/Q==OszSLeSteQjx0K0qqM5jVg8iDXM=ZNxSt78sK38eQY5uinZw2B/acOI=-uDaSVqPBawqOaHA7zno22f218VtjiFxXaEDb/a/PZUB+H3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=MCVaPrRAnmeQrNahcM2aE8nntxI=hxs=]umBmVlsS8rJgvFxTBzRyo11gbq4TK34V1YMhGjK5qHBmHwW+TsTdTd1Oe76Wimgj9SN9ObWC8OHspF4RLz1gtmuIlw==EHqNYR0XagecmmvrlBtDh1qNnq4Ect5/A1e1VOhsuZUsezQkw+EkAq40XRdiPdPVw3w==OszSLeSteQjx0K0qqM5jVg8iDXM=ZNxSt78sK38eQY5uinZw2B/acOI=uDaSVqPBawqOaHA7zno22cbcnfU=-lVcx72+flwnP6AM3is+ND61vOt64dn7c37bCTwIu0jA/H3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=MCVaPrRAnmcHg7uJ1+KGP971Oh4=hxs=]umBmVlsS8rIqfRYuO4VltVgqgTn6kN5HbPDGDSgp7OFCQOJauC9DofaBv9hx5zhvIvpz8AY/FoYCwCJZlIxODyiUN50pEHqNYR0XagecmmvrlBtDh1qNnq4Ect5/A1e1VOhsuZUsezQkw+EkAq40XRdiPdPVw3w==OszSLeSteQjx0K0qqM5jVg8iDXM=ZNxSt78sK38eQY5uinZw2B/acOI=uDaSVqPBawqOaHA7zno22cbcnfU=lVcx72+flwnP6AM3is+ND7NJs9c=-YVeLinoHrwJspCCkTrOUpk6M9VuyW/hrfjNHvgzJ1ZLZH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=MCVaPrRAnmf3uZStwLbKDFn2J9I=hxs=QumBmVlsS8rKNkVW+vjRsw47/1eOE1gh9WKy8u+xdSBZyD69dh9H+Ka1WT0aZDd4tkIPw6phPLIesHXE=EHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA7sM=m5AD3cwgsJ+5fiUUs73rrg==H3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=qTQL637eHDSEBh62gpwOQTLt+g==hxs=UumBmVlsS8rKULqUw9TeJbfBXN6JVoyVm1Nq6NjY7zujEQeTKappR7ahZbVElSey2xPzgJXqoZde3AVWljw==EHqNYR0Xaged/N3MzNDbAEXtr5ACTz99bCGRlCYkkptA2Zdvjv48FBGFP1D6ibA5mKQA=-OszSLeSteQjx0K0qqM5jVpCUCJU5HbHmab4vzJkF7nn+H3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=9JXswg+GB02tuwBy2acgRcK8w60=hxs=UumBmVlsS8rJ8EsIoRzGf9FBfvCNyJAfRV52bzZbJRyxDViuA9ZR3zmKiYYzsm/FLXjbuo1+gN3oQ3kBZq/8=EHqNYR0Xaged/N3MzNDbAEXtr5ACTz99bCGRlCYkkptA2Zdvjv48FBGFP1D6ibA5mKQA=-OszSLeSteQjx0K0qqM5jViqx+1IuN73pw72Yp6l9ytDJH3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=n93XGsB0Lye15Bf2TxnPrExv0/W7hxs=UumBmVlsS8rLvMpg7/cD2dohWB8cfYLvxQWX+xq4Z8ypkUJ0qMMz6NHCG2vWv97iI4pTMk/i01/gMMTVa78JuAHqNYR0Xaged/N3MzNDbAEXtr5ACTz99bP7J42xgGbaKxrHs0zYcIWEO84yOp306LZ2wvClNs+L/Pfu6o/x8=H3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=Ri4a56dqQCgNEMm3QVvQaXbVcbM=hxs=iumBmVlsS8rJcRysVIwTQAXdLYuGDIFB6S3vNjGulnK3sgzcdokt+NAmTKDo/1zv9LYD6MLzX4OJZcf+s+ycFIkBbzf5QlTzLgJ6D/R4=IHqNYR0XagefrecEp/Jc+2o33T5pQ3Ty0MoPA8ShKXGn1wfRKacwI6CoJns501OSg3XMBWA==+j9uyMWI7Hr4q908MXLheg==H3xUbEla9cVmU/IdLakrfTik!KSfM4miO/EcrT+yk97z/esDBHoVqa5YKMHqNYR0XageffLOhCBOIW6WBP1uVVmFchSceMWVws+2cb0+wvHrfwwftq8XURCS6POWraNsBNHR0=m5AD3cwgsJ+5fiUUs73rrg==YUxq7shb4aEmRLyGaUBfMKAGaMstA07Gwiyv%qTQL637eHDRUK7gzcWumOVUb3FQRfCibzw==hxs=iumBmVlsS8rJqA02iWqxevP+p3qajSX95MNIlPEkCkQztWUlxbSQUJC/nMG+upKOfUERZKlr8j3ULKQUpM5da36EDHKq7jGEpQKZ7wao=IHqNYR0XagefrecEp/Jc+2o33T5pQ3Ty0MoPA8ShKXGn1wfRKacwI6CoJns501OSg3XMBWA==+j9uyMWI7Hr4q908MXLheg==H3xUbEla9cVmU/IdLakrfTik!KSfM4miO/EcrT+yk97z/esDBHoVqa5YKMHqNYR0XageffLOhCBOIW6WBP1uVVmFchSceMWVws+2cb0+wvHrfwwftq8XURCS6POWraNsBNHR0=+j9uyMWI7Hr4q908MXLheg==YUxq7shb4aEmRLyGaUBfMKAGaMstA07Gwiyv%vsqGwic6goQb/cymB+fA95ka118tFGudjw==hxs=QumBmVlsS8rIP/YqSVjYXHy4BsBYEZdz+THEKaNmI1VVKDciUrRtNVYjvoKrouMJbFmkubRFddq4Lojs=EHqNYR0XagecgBBLlrvpwdzrDJZTf8xv/4gkwWexqHORsipyoOsQUKpw3O3NNCSTA7sM=+j9uyMWI7Hr4q908MXLheg==H3xUbEla9cX3ijL5uA==R1D6FwwUBO4Hnk4=vsqGwic6goRgmS9YF5YFXlTLrg==5wywxdjo3ri3t5ADakh60r21/wlDRDontxSGf7dVmmRBW3kyqGxNcIDkKvKoFCaD+c/o2FhnhKoj1jMQySdxQmfOhIrn2ha6n67aGIgEetxZRDCF2LKffAgaGT8ZuLhxs=99oj+QNVmGlp32MYo6Jo1YhfMqvN9Iw2rmWdGRVvajSsn2+qd2DfVYIA=aumBmVlsS8rIv78mp4dIUg4mBAQiCmJ8E/e0RuMO2JUFlqFCYGNRqA7UUZl3IugEMs8ynq8a0fOkYv5MRYe9n26OJg8J6Sg==]Uj7KGsrYfgcQAkuDJxrcsj1LrCHMJ9WHBiljo+fhq5O9GpDd0N7ERnOVVkUWXznJ6LuodsFwNrpBbWPQmej9s04AOg==wyfUEbSJFu5+QZWlC/DVQopXcQzvWZTRifl7AwmIm7xgkek=O1ZcOuycG98LsHgT4q8wAGAfTg==1n6MICN6B5pt4R0C/GA=03xzslZB7vLpur8vcifD3T1hA60pNiuvuZe8zqnxkdRrr6gS32M=AKTIqgjPQ7sAu5Zq8oplPyc=aBRNQdsj1tZVVI0ySO7f0hVt2qifI6B0VgZ3meqlUsCT62i0bJ3iWtq2khfvdWlLa2LfSyh3TFTQflmJ38fUGAsYQ9165WJnAx5UDZ9apXx2lMrmktA==IhhBFiwRUGPoqGXCplvyFhbfPAXomjzbJX1GItLO0HsPbi32kPwKoyXRNVl1JaBDh8xgJWzrHf9ZMQeFIM2j6Gq+mdg==/Sv+wnMfdss33gTI7doK+0p3GgdLijxZgardpdG3fugog9af9yQ2hCJdotXm0Sc=%89eTaYUMMfG3/h4KZ8PfrWIMlQD7nj03Fjg=hxs=]DkKvKoFCaD+c/o2FhnhKoj1jMQySdxQmfOhIrn2ha6n67aGIgEetxZRDCF2LKffARjb3BtjubnTVwSECU4aX4SnCNw==5wywxdjo3ri3t5ADakh60r21/wlDRDontxSGf7dVmmRBW3kyqGxNcaumBmVlsS8rLDWqxr+KL7bntMspQNP9Kgnj/+itOeDEEeDvF1x1CaClruBmoOC3BlREfSl3TzOo0Y5eYDAKqM0waVuW4rhg==]Uj7KGsrYfgcQAkuDJxrcsj1LrCHMJ9WHVvH37bEr8L2eJU7PAbF2Ok0RAx8BDiST3nnZ9crSLZoY0rQRw0c+x/pofg==wyfUEbSJFu5+QZWlC/DVQopXcQzvWZTRifl7AwmIm7xgkek=O1ZcOuycG98LsHgT4q8wAGAfTg==1n6MICN6B5pt4R0C/GA=03xzslZB7vLpur8vcifD3T1hA60pNiuvuZe8zqnxkdRrr6gS32M=AKTIqgjPQ7sAu5Zq8oplPyc=aBRNQdsj1tZVVI0ySO7f0hVt2qifI6B0VgZ3meqlUsCT62i0bJ3iWtq2khfvdWlLa2LfSyh3TFTQflmJ38fUGAsYQ9165WJnAx5UDZ9apXx2lMrmktA==IhhBFiwRUGPoqGXCplvyFhbfPAXomjzbJX1GItLO0HsPbi32kPwKoyXRNVl1JaBDh8xgJWzrHf9ZMQeFIM2j6Gq+mdg==/Sv+wnMfdss33gTI7doK+0p3GgdLijwie7LU9qWx2g==fugog9af9yQ2hCJdotXm0Sc=%89eTaYUMMfEZv88KAVBzhf1w8d92+KhoARo=IDkKvKoFCaD+c/o2FhnhKoj1jMQySdxQmfOhIrn2ha6n67aGIgEetxZRDCF2LKffAgaGT8ZuLhxs=9oj+QNVmGlp32MYo6Jo1YhfMqvN9Iw2rmWdGRVvajSsn2+qd2DfVYH9RTBVGKPUW1RM2JE56g1WiXAR7OfwJQnvFvZlXQHq1+t9FQc+cotVHPyfGf29bscC/CxwP8sQ3mn4flOZBeumBmVlsS8rJKbshu3FZ9xCqiAqN5rkn2tcAu8ymr+gP82iNDKS9vqgB71mCoqimYv8JvpMV7g5Suj4Sa855Mznh1zPOryTtraZE=aUj7KGsrYfgcQAkuDJxrcsj1LrCHMJ9WHFN4jobWoIN4c154ArQNxv5N7MclMGBdPjDQ2buKGEDkwE7c3oo8f042DHvPdlc0=wyfUEbSJFu5+QZWlC/DVQopXcQzvWZTRifl7AwmIm7xgkek=O1ZcOuycG98LsHgT4q8wAGAfTg==1n6MICN6B5pt4R0C/GA=03xzslZB7vLpur8vcifD3T1hA60pNiuvuZe8zqnxkdRrr6gS32M=AKTIqgjPQ7sAu5Zq8oplPyc=aBRNQdsj1tZVVI0ySO7f0hVt2qifI6B0VgZ3meqlUsCT62i0bJ3iWtq2khfvdWlLa2LfSyh3TFTQflmJ38fUGAsYQ9165WJnAx5UDZ9apXx2lMrmktA==IhhBFiwRUGPoqGXCplvyFhbfPAXomjzbJX1GItLO0HsPbi32kPwKoyXRNVl1JaBDh8xgJWzrHf9ZMQeFIM2j6Gq+mdg==fugog9af9yQ2hCJdotXm0Sc=)Vho+hQQ1OibP3gQKJ+RIDbMvu+mKY4Kd/EIcuA==hxs=9oj+QNVmGlp32MYo6Jo1YhfMqvN9Iw2rmWdGRVvajSsn2+qd2DfVYH9RTBVGKPUW1RM2JE56g1WiXAR7OfwJQnvFvZlXQHq1+t9FQc+cotVHPyfGf29bscC/CxwP8sQ3mn4flOZBeumBmVlsS8rJKbshu3FZ9xNW8gQzbW7M0yaGVzWhvbBaDYfqprf8tDkJKC2PvlGpZF0MaUsnFLgGB8U8lJrVvcuCg6rKy0FEuAHc=aUj7KGsrYfgcQAkuDJxrcsj1LrCHMJ9WHxwG5erBS7gqoMxO7/NqiTlEf1Pm1/h8ABqvqcnklFJ6XOw0bFWv609MT4uok8ms=wyfUEbSJFu5+QZWlC/DVQopXcQzvWZTRifl7AwmIm7xgkek=O1ZcOuycG98LsHgT4q8wAGAfTg==1n6MICN6B5pt4R0C/GA=03xzslZB7vLpur8vcifD3T1hA60pNiuvuZe8zqnxkdRrr6gS32M=AKTIqgjPQ7sAu5Zq8oplPyc=aBRNQdsj1tZVVI0ySO7f0hVt2qifI6B0VgZ3meqlUsCT62i0bJ3iWtq2khfvdWlLa2LfSyh3TFTQflmJ38fUGAsYQ9165WJnAx5UDZ9apXx2lMrmktA==IhhBFiwRUGPoqGXCplvyFhbfPAXomjzbJX1GItLO0HsPbi32kPwKoyXRNVl1JaBDh8xgJWzrHf9ZMQeFIM2j6Gq+mdg==fugog9af9yQ2hCJdotXm0Sc=)Vho+hQQ1OiZpMFdu7KybsEMT73uNWVxIwxaxuw==hxs=iumBmVlsS8rJGDwIllENAFUqcZ6FTd8kLGb2lrJLOPL7WH2/pHgx+tCarKMkLVeeXU1UTH9nscD8emDQ7qokbkZ9EDeEN2FWm6a3OU+U618AGJbXrt8RiheDCvdYTnVP7hsTtvdUe8YW9O08YZ5Y+MlQ==mlY6vLmEQ/apJC9Wtr1lEmfAfsLQ6pPSN7EIv33+GHpcXyRFGqYLWiBbHOrUxyR+L2sQHQoOqtDRsal/kXuvgXqdKK6jvzyZgdt1ekkQdIC4=UqG5qtdFiJf8Bih2JUHTT6AGUeFJqWleQa5f5m6RixsmYaVEzSmy6AZyhrNRVQYvpTOVRuK6wzxhg3lwktw==}5Ec9TPzLJQQ5pSHs4CQUYNCASVl3VehnCZHDSMmeirpQbpFv2cqxOcTpmNz7AkrDOVSzptgT46IGQexmqjwldheHwJEaVx6o/2odtwjxmbtf6YohqYJmP1jklw==mc6Up9n2Js5A0cnd36TYvDSGBkVMHqPJ/paQCYSJXkfPqGqCYXAwGI5932ZEmwDTY4LSt3ITmi0ehtpf6AbmFh+0/z6GdlMoUA3n20aVREzSyyUj7KGsrYfgcQAkuDJxrcsj1LrCHMJ9WHxwG5erBS7gqoMxO7/NqiTlEf1Pm1/h8AS4RTbSlBpwU2NCY6J+1X/1Q2TBz+oJVkk0Oa+OBSiAHtCFmnIRKCponb-4YrELO0B4nY7rqATdpjOmHO3mIkS5IQw99Vc8d221dI=wyfUEbSJFu5+QZWlC/DVQopXcQzvWZTRifl7AwmIm7xgkek=O1ZcOuycG98LsHgT4q8wAGAfTg==1n6MICN6B5pt4R0C/GA=03xzslZB7vLpur8vcifD3T1hA60pNiuvuZe8zqnxkdRrr6gS32M=AKTIqgjPQ7sAu5Zq8oplPyc=yBRNQdsj1tZVVI0ySO7f0hV7DBZ4A5UuA4+8aSlMH2LPbjTt/ICe7o3JWdTiayRy5SMtZ6myqOA9Lcp6VRuKS8WziQpUz7hphA5FNkHrmY+GsYWf6jlId8YEZx5UDZ9apXx2lMrmktA==IhhBFiwRUGPoqGXCplvyFhbfPAXomjzbJX1GItLO0HsPbi32kPwKoyXRNVl1JaBDh8xgJWzrHf9ZMQeFIM2j6Oq+mdg==/Sv+wnMfdsuUwGWnlq+bxg==+0p3GgdLijyK2IYac2bjhiY=fugog9af9yQ2hCJdotXm0Sc=%W2eQWlqMlkUV+9QbCn/NB96p1OgdZ9c9An8=hxs=eumBmVlsS8rKmOoagFc2kUQhpzz8Q0UlJOeIvpxCjXW0D7NihGzeHVcNZHrEezq+AXF1O14MLvNPP7zwqQzWTelRrsSiBwv4/Akk=18AGJbXrt8RiheDCvdYTnVP7hsTtvdUe8YW9O08YZ5Y+MlQ==mlY6vLmEQ/apJC9Wtr1lEmfAfsLQ6pPSN7EIv33+GHpcXyRFGqYLWiBbHOrUxyR+L2sQHQoOqtDRsal/kXuvgXqdKK6jvzyZgdt1ekkQdIC4=UqG5qtdFiJf8Bih2JUHTT6AGUeFJqWleQa5f5m6RixsmYaVEzSmy6AZyhrNRVQYvpTOVRuK6wzxhg3lwktw==}5Ec9TPzLJQQ5pSHs4CQUYNCASVl3VehnCZHDSMmeirpQbpFv2cqxOcTpmNz7AkrDOVSzptgT46IGQexmqjwldheHwJEaVx6o/2odtwjxmbtf6YohqYJmP1jklw==qc6Up9n2Js5A0cnd36TYvDSGBkVMHqPJ/paQCYSJXkfPqGqCYXAwGI5932ZEmwDTY4LSt3ITmi0ehtpf6AbmFh+0/z6GdlMoUA3n20aVREzSyoA==yUj7KGsrYfgcQAkuDJxrcsj1LrCHMJ9WHVvH37bEr8L2eJU7PAbF2Ok0RAx8BDiSTxI3i4+KGkNvj3nlueChCDVmnC/coIdCyPlxR/JBFTo+v42/MjO0z+1n7-4YrELO0B4nY7rqATdpjOmHO3mIkS5IQw99Vc8d221dI=wyfUEbSJFu5+QZWlC/DVQopXcQzvWZTRifl7AwmIm7xgkek=O1ZcOuycG98LsHgT4q8wAGAfTg==1n6MICN6B5pt4R0C/GA=03xzslZB7vLpur8vcifD3T1hA60pNiuvuZe8zqnxkdRrr6gS32M=AKTIqgjPQ7sAu5Zq8oplPyc=iBRNQdsj1tZVVI0ySO7f0hV7DBZ4A5UuA4+8aSlMH2LPbjTt/ICe7oxtsAql6P+8/vDVOegvfCrbG/4qS/McywNyHvIzZ1EehrytkPQ==x5UDZ9apXx2lMrmktA==IhhBFiwRUGPoqGXCplvyFhbfPAXomjzbJX1GItLO0HsPbi32kPwKoyXRNVl1JaBDh8xgJWzrHf9ZMQeFIM2j6Oq+mdg==/Sv+wnMfdsuUwGWnlq+bxg==+0p3GgdLijyK2IYac2bjhiY=fugog9af9yQ2hCJdotXm0Sc=!W2eQWlqMlkWLUwcrT7mQ0RWEqBE8UIVThxs=iumBmVlsS8rJGDwIllENAFdKwDk/1cK5Hqd+TfO3h9bkKdDH4PG/y/Rm1I6XYXlhjOGQxVANdH6/oMEsCypdL0ZwH10XucJR9WTEZZ4lV18AGJbXrt8RiheDCvdYTnVP7hsTtvdUe8YW9O08YZ5Y+MlQ==mlY6vLmEQ/apJC9Wtr1lEmfAfsLQ6pPSN7EIv33+GHpcXyRFGqYLWiBbHOrUxyR+L2sQHQoOqtDRsal/kXuvgXqdKK6jvzyZgdt1ekkQdIC4=UqG5qtdFiJf8Bih2JUHTT6AGUeFJqWleQa5f5m6RixsmYaVEzSmy6AZyhrNRVQYvpTOVRuK6wzxhg3lwktw==}5Ec9TPzLJQQ5pSHs4CQUYNCASVl3VehnCZHDSMmeirpQbpFv2cqxOcTpmNz7AkrDOVSzptgT46IGQexmqjwldheHwJEaVx6o/2odtwjxmbtf6YohqYJmP1jklw==qc6Up9n2Js5A0cnd36TYvDSGBkVMHqPJ/paQCYSJXkfPqGqCYXAwGI5932ZEmwDTY4LSt3ITmi0ehtpf6AbmFh+0/z6GdlMoUA3n20aVREzSyoA==}Uj7KGsrYfgcQAkuDJxrcsj1LrCHMJ9WHFN4jobWoIN4c154ArQNxv5N7MclMGBdPtEs2hVG3CMWnxiDWIV/qBwSEmgc/xTOf+XaMVffy9uK7w2NA3tbKlfWmbg==-4YrELO0B4nY7rqATdpjOmHO3mIkS5IQw99Vc8d221dI=wyfUEbSJFu5+QZWlC/DVQopXcQzvWZTRifl7AwmIm7xgkek=O1ZcOuycG98LsHgT4q8wAGAfTg==1n6MICN6B5ptrw==hYo+KBnWIBLXTvlaodXRY3TDAKTIqgjPQ7sAu5Zq8oplPyc=yBRNQdsj1tZVVI0ySO7f0hV7DBZ4A5UuA4+8aSlMH2LPbjTt/ICe7o3JWdTiayRy5SMtZ6myqOA9Lcp6VRuKS8WziQpUz7hphA5FNkHrmY+GsYWf6jlId8YEZx5UDZ9apXx2lMrmktA==IhhBFiwRUGPoqGXCplvyFhbfPAXomjzbJX1GItLO0HsPbi32kPwKoyXRNVl1JaBDh8xgJWzrHf9ZMQeFIM2j6Oq+mdg==/Sv+wnMfdsuUwGWnlq+bxg==+0p3GgdLijyK2IYac2bjhiY=fugog9af9yQ2hCJdotXm0Sc=%W2eQWlqMlkUKPbtoOaDyjFP1htWR5Mf1Gxo=hxs=eumBmVlsS8rJGXHM8oI6nGLXQWliPOkV/H7BVc/og3OtGbH5RMRbbs3ZDlW1FPulB1XdJcyNPyBsAfDHuc0fqh/ckcFl7GhjjX44=18AGJbXrt8RiheDCvdYTnVP7hsTtvdUe8YW9O08YZ5Y+MlQ==mlY6vLmEQ/apJC9Wtr1lEmfAfsLQ6pPSN7EIv33+GHpcXyRFGqYLWiBbHOrUxyR+L2sQHQoOqtDRsal/kXuvgXqdKK6jvzyZgdt1ekkQdIC4=UqG5qtdFiJf8Bih2JUHTT6AGUeFJqWleQa5f5m6RixsmYaVEzSmy6AZyhrNRVQYvpTOVRuK6wzxhg3lwktw==}5Ec9TPzLJQQ5pSHs4CQUYNCASVl3VehnCZHDSMmeirpQbpFv2cqxOcTpmNz7AkrDOVSzptgT46IGQexmqjwldheHwJEaVx6o/2odtwjxmbtf6YohqYJmP1jklw==qc6Up9n2Js5A0cnd36TYvDSGBkVMHqPJ/paQCYSJXkfPqGqCYXAwGI5932ZEmwDTY4LSt3ITmi0ehtpf6AbmFh+0/z6GdlMoUA3n20aVREzSyoN4=yUj7KGsrYfgcQAkuDJxrcsj1LrCHMJ9WHBiljo+fhq5O9GpDd0N7ERnOVVkUWXznJ+MSqrnSp2jvv7oKW6c4gm4xH1cuUX7lNfP2JRfHTkAIBh+xpMYzyTFEq-4YrELO0B4nY7rqATdpjOmHO3mIkS5IQw99Vc8d221dI=wyfUEbSJFu5+QZWlC/DVQopXcQzvWZTRifl7AwmIm7xgkek=O1ZcOuycG98LsHgT4q8wAGAfTg==1n6MICN6B5pt4R0C/GA=03xzslZB7vLpur8vcifD3T1hA60pNiuvuZe8zqnxkdRrr6gS32M=AKTIqgjPQ7sAu5Zq8oplPyc=yBRNQdsj1tZVVI0ySO7f0hV7DBZ4A5UuA4+8aSlMH2LPbjTt/ICe7o3JWdTiayRy5SMtZ6myqOA9Lcp6VRuKS8WziQpUz7hphA5FNkHrmY+GsYWf6jlId8YEZx5UDZ9apXx2lMrmktA==IhhBFiwRUGPoqGXCplvyFhbfPAXomjzbJX1GItLO0HsPbi32kPwKoyXRNVl1JaBDh8xgJWzrHf9ZMQeFIM2j6Oq+mdg==/Sv+wnMfdsuUwGWnlq+bxg==+0p3GgdLijyK2IYac2bjhiY=fugog9af9yQ2hCJdotXm0Sc=!W2eQWlqMlkW/yUlz89T23ijEpko3PJfOhxs=uu9bH283agbLyCy3f1q2yEolMdhKsJAV3wkGZQv4Dz6SONZh7pP+QgsIZfWxct08sAkNvVYymdDjnH2UZwurUAw06t8pYBFf6E1qIfYVPtBpjK8y5j288hWcostU0SkawR6unO7ezB/iew==MszbYmPZ+8umMlWs5Mij0x+67bJnlMAWRrfwncLK0UICyy/W86NoSRMPdXgxtP1rSXKR2QjPrlJk=YN+EZJ+AWTg+Y5DV0r/i5O2EOt6WxtCOYTR+zS2n1DjCNLgvE3NT4ga5nlFGpdienjY2SB5Tt4WPL3nXBY7fzcoE=8qaYaMthosCx8FAhw15g8fqwcDaSNmwcJt/hYLr6UHe1pcfZSmNnf2osm7QqD2rVKfS8ntnSAQWJfyvRe/Z3Bkntmz9X4NuyvwkCcHY28zotsKHPMyF90HXAjFmfTCzU+Edzb4gbfvJlgFlFWlejjmwjg1hEkUSrz0X1vUU=!DkKvKoFCaD+c/o2FhnhKoq1tIvUmIg==9umBmVlsS8rJF5sCQtAD9tT1UxHaY8w7+0mBUIxlUD4Auf8SmxgvQu44=DxGpna7mCiqstuiAZvIL5x8h7A==vEqR8a2uhSE/Q2XeWA==mrU4KsSd7yH1RYjwOXJ5miYuBuw7YNx840Md0Yxy%GxWLqKRM9I/jJ21PyOih/Fk4zvbXIub8Sw==9G4FMpiA0hE1NJcwlMb0yyDg6C2Y1JohhioKIsWwDjyeUw4tmAr09fCM=wXXwp8y7rL4Kml4O7cNOTob0%h2JwHQg+PXPn4wN/okV2N0M0cAEXD4nkzA==eWoWzbeXkJ5M1uQfH8qdq1cvlxezKNfB4iscpei5vR2wcrgadHMbyKR5/Z6scXZjqDcfE10rR/hhqZLHO2c5jc4eftNYGX0jWipJnikBozlRlHsr/OH7PpD/iZbZWhWFNY66vFmY9DyG39fgAupxxt/9/Anc8o0il98AKEQ9fpT1MZUbEhjwKMKaW/1wKOLbODCHhmx6NUU38=UD4YFLtGenD4f4GkadYk=aZTqkaRmtR4Yts+OzQ1de09F3+lk6wPHJDChy5LKSBfZD0s53dU1Sq49sg==MrP22BZexrP63B4oq+040Q==5dFwHG8HUuEMJEEeQ1ZC4YoJPSEYQ1KX3uhbEtbJsXgWYupVXVg==YuywjzodRzgG73+lfu7eZl8XIZ/cQiUYMlkp7F8wcbJ5p4Fj6ti5lYhJIi+/eUMD0derKd24191GcRnWwDOoHWECq]varB7I4ajDgM52nWwUbK2VrmfNWM8hkgTvigfgtLuHiYoTGeb0q9UumyP9rNm2totc+qm5Zb1LDjqTx0KkcytZprxlme0WY4Dl+x2quPvOA2cUo8OA==%DkKvKoFCaD/iGIk6ISuBbKtScRNMBzcFj9keItb41TQm8AvXIVwi3GNG9HXUQBtFl3iKMvRsw+PJYjA943hh3ZOV0mv1IpLb3KOdGWi5uerY=YsWjJ/2UGKX0UYDVKcrhMxo=%DkKvKoFCaD8qvym0XjjkBzihwwhwj/n1fg==M6G6Xl13HCTElgbnVMBSlxp3Pj9dk/I8NJNbhoOHMKefa1AEtjmZ+aR8JjhjJr+3wUH4h2ecEJQ==B+cmBKaPKEJ8JjtB390n40WL%+pEzlVcrwFgam6zoboNuyeJW3djC9sY5wQ==UkOFU98TYWr3fAdIdCLXXgMF9jwjX7K3gxXhDwmuBHQ3ewKpZpYV3f/hli+yICJMS7hIitCJKNizf9M9yW3hSYPHUSvnBIrIpQrN7O2D5tdqGaSxWXaI6VJSO/M7lZWOMx2UQHYZLYGwqyaLjbKJvdxSMy5w/6CR2tsghKcklqTsF/FtP5qgEs9Sjl15brxKpB9DkKvKoFCaD+ojDXP/84B/2j2iR6azg/iZGRoVR9yL0j/LI06UmbV3+xp5+pEzlVcrwFgam6zoboNuyX4nSgrqInV2ligNnNPJqW32zrqrtA==UL3SJHwtj1NNlX5vxsruRrkus0fkyoXu7eIbAc0zgKT0O8pvz3ySl04TVdmzNKmvVeWJ/9u9N3z1Zx49J3O4SYCjT3TPUl0oJhrE6z9fI52UOWhRq37nwc3qIap+QJCyATzID6ylxTxVB+m8mqdS91/rCYtjkey0tkPky5FfIrBlrDYxVRNgcevXN2xxUC2lnI+GE=UDkKvKoFCaD+c/o2FhnhKoj1jMQySdxQm6ZrkBwZSyO/QPlOhA8JpuOIAdWJwTAyBUCsZYY/mk2A0DF9STg==VorsMVGFJ1EMYfiHtH4=Ez279JJsKn6lrOqIxZGQ38fD575x6rJ4cdNLZ/PvkacbC4y2aI8U8AM1jgQSFv+9AbY8z=jxuWqHf//66DH55UyJZt0UtEPpqtEV1Vmp1XZiX2+1Xn38c4ZZPzraL8BQ==kH87vN2HisO4f6z/6ddNrQ==3N0nToa6sfhKwKdoPg==AAMf6k2Rs0jdumyNJods0aeYDPAhFwzXNbkn0n4gO5zCg/EjBqYvSOdTzwBj34Q==8XIl+k8KNNjHCwvZZWI1IZ7nv15fTLIuHMXKbtw+Zub2+TaNYUzSSWjRjGgATlqtia6ztDwqeujDB+GGCVrICU0/mAg==1ofmzA6Q889UK7d2ut/X7A==EWVlCSXPgPFnSM9rLvHOhmZU4IFtYG97YIvJbiiJQHIg3nSz/5bTVkfd+19RoFgSuJug=hNXXEGVE+OzhbVI=QFjITl7GHTdKSQ==645SQvOFRzXSctov0TM=5gz41sWX38Dzesivtn7tTUPnnhBKSHMUXtNrtKq8I1dpC+v0HF17wZHgFpa38mQ8HQPGRFA==q8x7bE7t1BXWsD4=B0L8R1H7eBOxoXmySaadgFxvpv8xA+V4RRmktxonUQ==hxs=5umBmVlsS8rI7of5rljyvpRZKxWdE8Zqv8k+pKd0vQWbiJXf7nA==OS3a5Pw2odW1+HCX3w==WEu3mf6pUX4D+8JjzJkhH9MiNfUs6wgqLA==hxs==umBmVlsS8rJLsOpYK1Xrs2XFhu2gJthAQrWGIY0tGdZdDvpPFpquCVGdUVs=8aV4SiXKpFaVOr0Z4Q==WEu3mf6pUX6H2OOiELpmZUCJUrfKwDeYRc0PqOuSGbkCz6IQYxJ2t2/tMw==hxs=-umBmVlsS8rLuXAKaQ5TYgyFtgXYHA7aUNF8RL8/YEV0o9JFntSv0dKKV7bxGZr/LtduRwxxhxSwthCddw9Fyl0MOrtJpy4oMQkQ==Bnjvk4cI4LHXb/VvJR91fg==hxs=IumBmVlsS8rKGMCB2Mo5T8Lv5Y/teQLaQh1lbfr7JwYLx6mFEwh5XTZNXbQNnf9Rm4Mw1ehQuUK4km+bT5H7Nl/HKYOVjNDe1rq8ktj5b4s0gAuslTYn+6qz4DGEmVR+O7N2SwH4bHeZwqoGpwl7yUzbYYuP5b2C+mTdrPDDaITgkVng==hxs=%umBmVlsS8rLqJBnyxjgdCLfXMfb0xtgrPoKUMQnyT/ujn4SkI4/WpqQwd7oQzejAPx6UhO6Kbnkh8XB7sQGDtm5l9s03LBD/hWrQZkAi71yfH6r0==jpg5jJrqnvnT8SsiIZy6Oo007GTNhtzlHBeu/ZvdkXuS8GkgxRn4mcRIlar/ g1q66j8pZw==hxs=mumBmVlsS8rJoKPo4TNXi0jaxhUEBDjYBP3lAk/hsaHWmKzJIHKZhkf//tHXZvH6kwMp5eNFpJanVdxsV6lTHMiE++QhE2ikqPJivlxtIaA==!zunkqCkOPJoCeFHTfONY/aryUJLyKR4DMIdcHuT+uoaFim8kfGFigxnmKQ6n9qp0L3LvHPkxS6NPbjAsLMoWICDTzHo+rzdxIFFAR+ukKX6U=MGvaIAXfQjdeKS+ARkeeTbbUwgTHe1poQVM8m9uYtYbkyIXvNX0ks10ZXFiD85iH5chm4rIVuKA==7arknlkzKCceog== 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LVDS_COMPT_03B2139020211008103230 TLV3604TLV3604SC:\Users\a0226796\AppData\Local\Temp\DesignSoft\{Tina9-TI-11292018-112050}\TLV3604SCK#TLV3604LabelS#H X(d*IN+ @d*IN-D0 @d*OUT+ M P @d*OUT-=V(2)),V(VSS P @d*VCC(V(VDD)+V(VSS  @d*VEE P @fH g"TLV3604Arial333333?6_t@6_t@* source TLV3604,.SUBCKT TLV3604 IN+ IN- OUT+ OUT- VCC VEE 5X_U1 IN+ IN- OUT+ OUT- VCC VEE Top_Level_Schematic .ENDS 8.SUBCKT Top_Level_Schematic IN+ IN- OUT+ OUT- VCC VEE V_V3 N01214 0 5V;X_U4 IN-_BUFF IN+_BUFF N00681 VCC_BUFF VEE_BUFF VinRange PX_U10 IN+_BUFF IN-_BUFF N790436 VCC_BUFF VEE_BUFF N007920 N01214 N01399+ HPA_COMPHYS3X_U9 N01411 N00681 OUT- OUT+ N00670 Output_Stage =X_U5 N00421 IN-_BUFF N00417 IN+_BUFF VCC_BUFF VEE_BUFF POR *X_U3 IN+ N00417 IN- N00421 Input_Buffer .X_U2 N00670 VCC_BUFF VEE_BUFF Supply_Enable V_V2 N01399 0 0Vdc/X_U1 VCC VCC_BUFF VEE VEE_BUFF Supply_Buffer V_V1 N007920 0 0Vdc(X_U6 N790436 N01411 Propagation_Delay .ENDS %.SUBCKT Propagation_Delay VIN VOUT R_R1 0 VOUT 50 TC=0,0 *T_T1 VIN 0 VOUT 0 Z0=50 TD=800p .ENDS 2.SUBCKT Supply_Buffer V+ V+_BUFFER V- V-_BUFFER 7X_U1 V+ V- V+_BUFFER V-_BUFFER SUPPLY_BUFFER1 .ENDS /.SUBCKT Supply_Enable EN V+_BUFFER V-_BUFFER AX_U15 N19868 N20144 N20016 V+_BUFFER V-_BUFFER VCC_RangeHX_U13 V+_BUFFER V-_BUFFER N19868 V+_BUFFER V-_BUFFER DIFFERENCEV_V5 N20086 0 5DX_U17 N20012 0 N20086 EN V+_BUFFER V-_BUFFER ENABLE_TLV7021@X_U16 N19850 N20016 N20012 V+_BUFFER V-_BUFFER ANDGATE@X_U5 N19838 N19868 N19850 V+_BUFFER V-_BUFFER VCC_RANGEV_V1 N19838 0 5.5V_V4 N20144 0 -.3.ENDS 1.SUBCKT Input_Buffer IN+ IN+_BUFF IN- IN-_BUFF 7X_U1 IN+ IN- IN+_BUFF IN-_BUFF SUPPLY_BUFFER1 .ENDS 8.SUBCKT POR INN INNNEW INP INPNEW V+_BUFFER V-_BUFFER V_V2 N20267 0 5V_V3 N202150 0 55X_U14 N20401 N20509 N20325 N20267 0 PORCHECK>X_U15 N20325 V+_BUFFER INN INNNEW N205330 0 INNNEWPORHX_U13 V+_BUFFER V-_BUFFER N20509 V+_BUFFER V-_BUFFER DIFFERENCE>X_U16 N20325 V-_BUFFER INP INPNEW N202150 0 INPNEWPORV_V1 N20401 0 1.6VV_V4 N205330 0 5.ENDS :.SUBCKT Output_Stage IN INRANGE OUTN OUTP SUPPLY_ENABLE V_V9 N793426 0 00X_S14 IN 0 N793572 N793868 Output_Stage_S14 0X_S13 0 IN N793550 N793572 Output_Stage_S13 !I_I8 N793868 0 DC 3.5m 0X_S11 IN 0 N793550 N793576 Output_Stage_S11 'I_I7 N793426 N793550 DC 3.5m 0X_S12 0 IN N793576 N793868 Output_Stage_S12 +R_R1 N793572 N799021 3.5k TC=0,0 +R_R2 N799021 N793576 3.5k TC=0,0 V_V10 N799021 0 1.2'R_R3 N793576 OUTP 0.1 TC=0,0 'R_R4 N793572 OUTN 0.1 TC=0,0 !C_C1 0 OUTP 6p TC=0,0 !C_C2 0 OUTN 6p TC=0,0 .ENDS 7.SUBCKT VinRange INN INP INRANGE V+_BUFFER V-_BUFFER V_V3 N27764 0 -.3>X_U19 N27742 N27850 N27610 V+_BUFFER V-_BUFFER ORGATEV_V4 N27958 0 -.3LX_U20 N27380 N27610 0 N27678 INRANGE V+_BUFFER V-_BUFFER ORGATE1701V_V2 N27482 0 5.5V_V5 N27678 0 5>X_U18 N27298 N27390 N27380 V+_BUFFER V-_BUFFER ORGATEAX_U17 INN N27958 N27850 V+_BUFFER V-_BUFFER VINRANGE_393@X_U3 INP N27764 N27742 V+_BUFFER V-_BUFFER VINRANGE_393V_V1 N27278 0 5.5@X_U1 N27278 INP N27298 V+_BUFFER V-_BUFFER VINRANGE_393@X_U2 N27482 INN N27390 V+_BUFFER V-_BUFFER VINRANGE_393.ENDS#.subckt Output_Stage_S14 1 2 3 4 S_S14 3 4 1 2 _S14RS_S14 1 2 1G=.MODEL _S14 VSWITCH Roff=1e12 Ron=1.0 Voff=2.5 Von=5.ends Output_Stage_S14#.subckt Output_Stage_S13 1 2 3 4 S_S13 3 4 1 2 _S13RS_S13 1 2 1G?.MODEL _S13 VSWITCH Roff=1e12 Ron=1.0 Voff=-5 Von=-2.5.ends Output_Stage_S13#.subckt Output_Stage_S11 1 2 3 4 S_S11 3 4 1 2 _S11RS_S11 1 2 1G=.MODEL _S11 VSWITCH Roff=1e12 Ron=1.0 Voff=2.5 Von=5.ends Output_Stage_S11#.subckt Output_Stage_S12 1 2 3 4 S_S12 3 4 1 2 _S12RS_S12 1 2 1G?.MODEL _S12 VSWITCH Roff=1e12 Ron=1.0 Voff=-5 Von=-2.5.ends Output_Stage_S12.SUBCKT ANDGATE 1 2 3 VDD VSScE1 4 0 VALUE = { IF( ((V(1)> (V(VDD)+V(VSS))/2 ) & (V(2)> (V(VDD)+V(VSS))/2 )), V(VDD), V(VSS) ) } R1 4 3 1 C1 3 0 1e-12.ENDS7.SUBCKT HPA_COMPHYS INP INN OUT_OUT VDD VSS VHYS V3 V4/EVMID VMID 0 VALUE = { ( V(VDD) + V(VSS) )/2 }"EVH VH 0 VALUE = { ( V(VHYS)/2) }`EINNNEW INNNEW 0 VALUE = { IF( ( V(OUT_OUT) < V(V3) ),(V(INN) + (V(VH))),( V(INN) - V(VH) ) ) }BEOUT OUT 0 VALUE = { IF( ( V(INP) > V(INNNEW) ), V(V3), V(V4) ) }R1 OUT OUT_OUT 1C1 OUT_OUT 0 1e-12.ENDS8.SUBCKT DIGLEVSHIFT 1 2 VDD_OLD VSS_OLD VDD_NEW VSS_NEWRE1 3 0 VALUE = { IF( V(1) < (V(VDD_OLD)+V(VSS_OLD))/2, V(VSS_NEW), V(VDD_NEW) ) } R1 3 2 1 C1 2 0 1e-12.ENDS&.SUBCKT ENABLE_LOGIC 1 2 OUT VDD VSS /EVMID VMID 0 VALUE = { ( V(VDD) + V(VSS) )/2 }>EOUT OUT 0 VALUE = { IF( ( V(1) > V(VMID) ), V(2), V(VSS) ) } R1 OUT 2 1 C1 2 0 1e-12.ENDS*.SUBCKT ENABLE_TLV7021 1 2 3 OUT VDD VSS /EVMID VMID 0 VALUE = { ( V(VDD) + V(VSS) )/2 } V(VMID) ), V(2), V(3) ) } R1 OUT 2 1 C1 2 0 1e-12.ENDS%.SUBCKT INNNEWPOR 1 2 3 OUT VDD VSS /EVMID VMID 0 VALUE = { ( V(VDD) + V(VSS) )/2 } (V(VDD)+V(VSS))/2, V(VSS), V(VDD) ) } C1 2 0 1e-12.ENDS.SUBCKT INVERTER 1 2 VDD VSSAE2 2 0 VALUE = { IF( V(1)> (V(VDD)+V(VSS))/2, V(VSS), V(VDD) ) } C1 1 0 1e-12.ENDS.SUBCKT MID_SUPPLY OUT VDD VSS/EVMID VMID 0 VALUE = { ( V(VDD) + V(VSS) )/2 }EOUT OUT 0 VALUE = {V(VMID)}.ENDS.SUBCKT ORGATE 1 2 3 VDD VSScE1 4 0 VALUE = { IF( ((V(1)< (V(VDD)+V(VSS))/2 ) & (V(2)< (V(VDD)+V(VSS))/2 )), V(VSS), V(VDD) ) } R1 4 3 1 C1 3 0 1e-12.ENDS'.SUBCKT ORGATE1701 1 2 3 4 OUT VDD VSScEOUT OUT 0 VALUE = { IF( ((V(1)< (V(VDD)+V(VSS))/2 ) & (V(2)< (V(VDD)+V(VSS))/2 )), V(3), V(4) ) }.ENDS".SUBCKT PORCHECK 1 2 OUT VDD VSS =EOUT OUT 0 VALUE = { IF( ( V(2) < V(1) ), V(VSS), V(VDD) ) } R1 OUT 2 1 C1 2 0 1e-12.ENDS$.SUBCKT Difference 1 2 OUT VDD VSS !EOUT OUT 0 VALUE = { V(1)- V(2)} R1 OUT 2 1 C1 2 0 1e-12.ENDS,.SUBCKT SUPPLY_BUFFER1 1 2 VDD_NEW VSS_NEW "EVDD_NEW VDD_NEW 0 VALUE = {V(1)}"EVSS_NEW VSS_NEW 0 VALUE = {V(2)} C1 2 0 1e-12.ENDS#.SUBCKT VCC_Range 1 2 OUT VDD VSS >EOUT OUT 0 VALUE = { IF( ( V(1) >= V(2) ), V(VDD), V(VSS) ) } R1 OUT 2 1 C1 2 0 1e-12.ENDS&.SUBCKT VINRANGE_393 1 2 OUT VDD VSS >EOUT OUT 0 VALUE = { IF( ( V(1) >= V(2) ), V(VSS), V(VDD) ) } R1 OUT 2 1 C1 2 0 1e-12.ENDS4.MODEL NPN1 NPN LEVEL=1 IS=1E-16 RB=850 RC=1 TF=5n 4.MODEL PNP1 PNP LEVEL=1 IS=1E-16 RB=850 RC=1 TF=5n IN+IN-OUT+OUT-VCCVEE B0R6T_119F08F020211008103230R_AX600_W200 (R)Y@@?Y@DB0 VREFT_03B294D020211008103453Battery_9V_V (V)@B7VPULSET_03B28EF020211008103453 Sgen (VG)@?:0y%>Bu OUT_BART_13B365C020211008122719 NOPCB (VF) BRLOADT_13B35FE020211008122702R_AX600_W200 (R)?@?Y@:Bi0U2T_04C9B04020211019141802 EPC2019EPC2019cC:\ELAB_MODEL_WS\ELAB_MODEL_DS\Part_Numbers\LMG1020\Release_TI\TINA\LMG1020_TINA_TRANS\EPC2019.libSCK#EPC2019Labelh ` p(d*DRAININ  @d*GATEIN @d*SOURCEINx h @f` g"EPC2019Arial333333?i@i@JM* (C) Copyright Efficient Power Conversion Corporation. All rights reserved.N****************************************************************************** Version History:,* 1.00: 06/30/2014 - Initial model creationD* 1.01: 01/12/2015 - Updated the model from the preliminary version).subckt EPC2019 gatein drainin sourcein M.param aWg=277 A1=9.2486 k2=2.111 k3=0.15 rpara=0.02974 rpara_s_factor=0.15 R + aITc=0.004615 arTc=-0.0065 k2Tc=0.00054 x0_0=1.7531 x0_1=4.9125e-07 x0_1_TC=0 1 + dgs1=4.3e-07 dgs2=2.6e-13 dgs3=0.8 dgs4=0.23 < + ags1=2.0042e-10 ags2=9.6497e-11 ags3=1.8454 ags4=0.1739 . + ags5=-4.093e-14 ags6=-5.5507 ags7=0.28143 > + agd1=4.6419e-13 agd2=1.8162e-12 agd3=-0.10754 agd4=1.4625 - + agd5=3.5962e-11 agd6=-3.7643 agd7=5.5568 . + agd8=2.1166e-12 agd9=-31.198 agd10=32.013 ; + asd1=6.9149e-11 asd2=1.7469e-10 asd3=-20.764 asd4=4.72 ; + asd5=2.1901e-10 asd6=-0.20196 asd7=67.825 rg_value=0.4 Ard drainin drain {((1-rpara_s_factor)*rpara*(1-arTc*(Temp-25)))}?rs sourcein source {(rpara_s_factor*rpara*(1-arTc*(Temp-25)))}rg gatein gate {(rg_value)}$*Large resistors to aid convergence&Rcsdconv drain source {100000Meg/aWg}%Rcgsconv gate source {100000Meg/aWg}$Rcgdconv gate drain {100000Meg/aWg}2gswitch drain source Value {if(v(drain,source)>0,U+ (A1*(1-aITc*(Temp-25))*log(1.0+exp((v(gate,source)-(k2*(1-k2Tc*(Temp-25))))/k3))* c+ v(drain,source)/(1 + max(x0_0+x0_1*(1-x0_1_TC*(Temp-25))*v(gate,source),0.2)*v(drain,source)) ),U+ (-A1*(1-aITc*(Temp-25))*log(1.0+exp((v(gate,drain)-(k2*(1-k2Tc*(Temp-25))))/k3))* e+ v(source,drain)/(1 + max(x0_0+x0_1*(1-x0_1_TC*(Temp-25))*v(gate,drain),0.2)*v(source,drain)) ) ) }5ggsdiode gate source VALUE {if( v(gate,source) < 10,Z+ 0.5*aWg/1077*(dgs1*(exp((v(gate,source))/dgs3)-1)+dgs2*(exp((v(gate,source))/dgs4)-1)),E+ 0.5*aWg/1077*(dgs1*(exp((10)/dgs3)-1)+dgs2*(exp((10)/dgs4)-1)) ) }3ggddiode gate drain Value {if( v(gate,drain) < 10,X+ 0.5*aWg/1077*(dgs1*(exp((v(gate,drain))/dgs3)-1)+dgs2*(exp((v(gate,drain))/dgs4)-1)),E+ 0.5*aWg/1077*(dgs1*(exp((10)/dgs3)-1)+dgs2*(exp((10)/dgs4)-1)) ) }5*Model for voltage dependent gate-source capacitanceQE_IGS tl_gs bl_gs value = {0.5*ags2*ags4*log(1+exp((v(gate,source)-ags3)/ags4))+5+ ags5*ags7*log(1+exp((v(source,drain)-ags6)/ags7))++ ags1*v(gate,source) }V_INGS br_gs bl_gs 0.0C_IGS br_gs tr_gs {1.0e-6}R_IGS tr_gs tl_gs {1.0e-4}F_IGS gate source V_INGS 1e6R_IGS2 bl_gs source 100Meg4*Model for voltage dependent gate-drain capacitancePE_IGD tl_gd bl_gd value = {0.5*ags2*ags4*log(1+exp((v(gate,drain)-ags3)/ags4))+3+ agd2*agd4*log(1+exp((v(gate,drain)-agd3)/agd4))+3+ agd5*agd7*log(1+exp((v(gate,drain)-agd6)/agd7))+5+ agd8*agd10*log(1+exp((v(gate,drain)-agd9)/agd10))++ agd1*v(gate,drain) }V_INGD br_gd bl_gd 0.0C_IGD br_gd tr_gd {1.0e-6}R_IGD tr_gd tl_gd {1.0e-4}F_IGD gate drain V_INGD 1e6R_IGD2 bl_gd drain 100Meg6*Model for voltage dependent source-drain capacitanceNE_ISD tl_sd bl_sd value = {asd2*asd4*log(1+exp((v(source,drain)-asd3)/asd4))+5+ asd5*asd7*log(1+exp((v(source,drain)-asd6)/asd7))++ asd1*v(source,drain) }V_INSD br_sd bl_sd 0.0C_ISD br_sd tr_sd {1.0E-6}R_ISD tr_sd tl_sd {1.0e-4}F_ISD source drain V_INSD 1e6R_ISD2 bl_sd drain 100Meg.endsDRAININGATEIN SOURCEINDB@ VLOADT_045AEEE020211020112026Battery_9V_V (V)$@DBX8 VCCT_045B0C4020211020112318Battery_9V_V (V)@ B8XC1T_045B470020211020114207CP_CYL300_D700_L1400 (C) ư>@eAY@?ABSD1T_045B760020211020115147DO204-10 (1N5817)1N5817 Standard? BR1T_10C1593020170120142411R_AX600_W200 (R)@@?Y@:B508U4T_136467B020211103114955 TLV3601Comparator5CO-TISC:\Users\a0488729\AppData\Local\Temp\DesignSoft\{Tina9-TI-06252021-095111}\TLV3601TLV3601Comparator5CO-TILabel#PP(d*V+-  @d*V-+D   @d*OutDX   @d*In+D   @d*In-or type the a @h 00g"- Courier New?g"+ Courier New ?g$Vcc Courier Newm۶m?g$Vcc Courier Newm۶m?g$Vee Courier Newm۶m?K,ٺ@K,ٺ@a *TLV3601N*****************************************************************************M* (C) Copyright 2019 Texas Instruments Incorporated. All rights reserved. N*****************************************************************************H** This model is designed as an aid for customers of Texas Instruments.K** TI and its licensors and suppliers make no warranties, either expressedG** or implied, with respect to this model, including the warranties ofF** merchantability or fitness for a particular purpose. The model isK** provided solely on an "as is" basis. The entire risk as to its quality(** and performance is with the customerN******************************************************************************D* This model is subject to change without notice. Texas Instruments;* Incorporated is not responsible for updating this model.*N******************************************************************************&* Released by: Texas Instruments Inc.* Part: TLV3601* Date: 11/2/2021* Model Type: TRANSIENT* Simulator: TINA-TI'* Simulator Version: 9.3.200.277 SF-TI6* Datasheet: SNOSDB1 rev * JULY 2020 (3601/3 preprod)** Model Version: 1.00*N******************************************************************************* Model Notes:*>* Model emulates TYPICAL room temperature performace at 3.3V.** Modeled parameters:$* Supply voltage range (see below)* Supply current (typical)!* Input Bias Currents (typical)&* Typical Offset Voltage (see below)* Propagation Delay (fixed) * Output Latch and Latch Delay* Power On Reset (no delay) * Hysteresis voltage (typical)#* Input Voltage Range (see below)*E* INCORRECT INPUT CONDITIONS: If an error condition occurs, such as U* incorrect supply votlages or exceeding input voltage range, the output will go to =* half the supply votlage. The real device will NOT do this.*K* POWER ON RESET (POR) The output will be high-impedance until the minimumQ* specified supply voltage (2.4V) is reached. The actual device also has a time M* delay that is NOT modeled as it makes short period simualtions impossible.*P* OFFSET VOLTAGE: Offset voltage can be adjusted in the macro with device V_VOS*c* HYSTERESIS: THe hystyeresis value can be changed by modifying the 3mV in he V_VHYST source below*^* There may be a slight 2.5ns start-up delay as the signal propagates through the comparator.*N****************************************************************************** source TLV3601".SUBCKT TLV3601 IN+ IN- V+ V- OUT!X_U4 N21103 N855697 Prop_Delay =X_U2 IN-BUFF IN+BUFF N21168 V+_BUFFER V-_BUFFER INPUTRANGE PX_U5 N21237 N21168 N786723 V+ V+_BUFFER V- V-_BUFFER N855707 OUT Output_Stage /X_U6 V+ V+_BUFFER V- V-_BUFFER Supply_Buffer LX_U3 N785573 IN-BUFF N21103 V+_BUFFER V-_BUFFER N852568 HPA_COMPHYS"I_IS N843683 V- DC 4.9m 8X_U7 N21237 N786723 V+_BUFFER V-_BUFFER Supply_Enable ,X_U1 IN+ IN+BUFF IN- IN-BUFF Input_Buffer I_IBP IN+ V- DC 1u I_IBN IN- V- DC 1u #V_VOS N785573 IN+BUFF 0.5m%R_RIS N843683 V+ 1u TC=0,0 &C_CINPL V- IN+ 0.5p TC=0,0 &C_CINNL V- IN- 0.5p TC=0,0 &C_CINPH IN+ V+ 0.5p TC=0,0 &C_CINNH IN- V+ 0.5p TC=0,0 V_VHYST N852568 0 3m3E_E1 N855707 V-_BUFFER N855697 V-_BUFFER 2.ENDS 1.SUBCKT Input_Buffer IN+ IN+_BUFF IN- IN-_BUFF 7X_U1 IN+ IN- IN+_BUFF IN-_BUFF SUPPLY_BUFFER1 .ENDS 3.SUBCKT Supply_Enable EN POR V+_BUFFER V-_BUFFER -X_U5 N16973 N20377 EN 1V 0 VCC_Range/X_U15 N20310 N16973 POR 1V 0 VCC_Range9X_U13 V+_BUFFER V-_BUFFER N16973 1V 0 Difference$V_VS_MIN_SET N20310 0 2.399#V_VS_MAX_SET N20377 0 5.51V_VLOGIC 1V 0 1.ENDS 2.SUBCKT Supply_Buffer V+ V+_BUFFER V- V-_BUFFER 7X_U1 V+ V- V+_BUFFER V-_BUFFER SUPPLY_BUFFER1 .ENDS J.SUBCKT Output_Stage EN IN_RANGE POR V+ V+_BUFFER V- V-_BUFFER VIN VOUT 7X_SMID CONTROL_MID 0 N778484 MID Output_Stage_SMID DX_U3 VIN N774212 V+_BUFFER V-_BUFFER V+ N774290 DIGLEVSHIFT0X_U7 MID V+_BUFFER V-_BUFFER MID_SUPPLYV_VLOGIC 1V 0 1V_V1 V+ N774290 1;X_SHIZ CONTROL_HIZ 0 N778484 N778496 Output_Stage_SHIZ :X_U8 POR IN_RANGE EN EN CONTROL_HIZ 1V 0 4ORGATE/X_U9 CONTROL_HIZ N789513 1V 0 INVERTER3X_U10 N789513 POR CONTROL_MID 1V 0 ORGATE L_L1 N778484 VOUT 1n 'C_COUTH VOUT V+ 0.5p TC=0,0 'C_COUTL V- VOUT 0.5p TC=0,0 9X_SVOH N774212 N774290 N8491902 V+ Output_Stage_SVOH 8X_SVOL N774212 N774290 V- N850209 Output_Stage_SVOL -R_ROUTH N778496 N8491902 60 TC=0,0 ,R_ROUTL N850209 N778496 60 TC=0,0 .ENDS 9.SUBCKT INPUTRANGE INN INP INRANGE V+_BUFFER V-_BUFFER &V_VCMNP N20415 V-_BUFFER -0.3&V_VCMPN N202710 V+_BUFFER 0.3@X_U1 N20155 INP N20826 V+_BUFFER V-_BUFFER VINRANGE_393%V_VCMPP N20155 V+_BUFFER 0.3&V_VCMNN N20539 V-_BUFFER -0.3BX_U21 N202710 INN N20833 V+_BUFFER V-_BUFFER VINRANGE_393AX_U22 INP N20415 N20840 V+_BUFFER V-_BUFFER VINRANGE_393AX_U23 INN N20539 N20531 V+_BUFFER V-_BUFFER VINRANGE_393OX_U24 N20826 N20833 N20840 N20531 INRANGE V+_BUFFER V-_BUFFER 4ORGATE .ENDS .SUBCKT Prop_Delay VIN VOUT .T_TPD N03175 0 VOUT 0 Z0=50 TD=2.5n R_RT 0 VOUT 50 TC=0,0 $R_RS N03175 VIN 50 TC=0,0 .ENDS$.subckt Output_Stage_SMID 1 2 3 4 S_SMID 3 4 1 2 _SMIDRS_SMID 1 2 1G<.MODEL _SMID VSWITCH Roff=1e12 Ron=1.0 Voff=1 Von=0.ends Output_Stage_SMID$.subckt Output_Stage_SHIZ 1 2 3 4 S_SHIZ 3 4 1 2 _SHIZRS_SHIZ 1 2 1G<.MODEL _SHIZ VSWITCH Roff=1e12 Ron=1.0 Voff=1 Von=0.ends Output_Stage_SHIZ$.subckt Output_Stage_SVOH 1 2 3 4 S_SVOH 3 4 1 2 _SVOHRS_SVOH 1 2 1G<.MODEL _SVOH VSWITCH Roff=1e12 Ron=1.0 Voff=0 Von=1.ends Output_Stage_SVOH$.subckt Output_Stage_SVOL 1 2 3 4 S_SVOL 3 4 1 2 _SVOLRS_SVOL 1 2 1G<.MODEL _SVOL VSWITCH Roff=1e12 Ron=1.0 Voff=1 Von=0.ends Output_Stage_SVOL.SUBCKT ANDGATE 1 2 3 VDD VSScE1 4 0 VALUE = { IF( ((V(1)> (V(VDD)+V(VSS))/2 ) & (V(2)> (V(VDD)+V(VSS))/2 )), V(VDD), V(VSS) ) } R1 4 3 1 C1 3 0 1e-12.ENDS*$1.SUBCKT HPA_COMPHYS INP INN OUT_OUT VDD VSS VHYS/EVMID VMID 0 VALUE = { ( V(VDD) + V(VSS) )/2 }"EVH VH 0 VALUE = { ( V(VHYS)/2) }bEINNNEW INNNEW 0 VALUE = { IF( ( V(OUT_OUT) < V(VMID) ),(V(INN) + (V(VH))),( V(INN) - V(VH) ) ) }DEOUT OUT 0 VALUE = { IF( ( V(INP) > V(INNNEW) ), V(VDD), V(VSS) ) }R1 OUT OUT_OUT 1C1 OUT_OUT 0 1e-12.ENDS*$8.SUBCKT DIGLEVSHIFT 1 2 VDD_OLD VSS_OLD VDD_NEW VSS_NEWS*E1 3 0 VALUE = { IF( V(1) < (V(VDD_OLD)+V(VSS_OLD))/2, V(VSS_NEW), V(VDD_NEW) ) }:E1 3 0 VALUE = { IF( V(1) < 1, V(VSS_NEW), V(VDD_NEW) ) } R1 3 2 1*C1 2 0 1e-12.ENDS*$&.SUBCKT ENABLE_LOGIC 1 2 OUT VDD VSS /EVMID VMID 0 VALUE = { ( V(VDD) + V(VSS) )/2 }>EOUT OUT 0 VALUE = { IF( ( V(1) > V(VMID) ), V(2), V(VSS) ) } R1 OUT 2 1 C1 2 0 1e-12.ENDS*$*.SUBCKT ENABLE_TLV7021 1 2 3 OUT VDD VSS /EVMID VMID 0 VALUE = { ( V(VDD) + V(VSS) )/2 }=EOUT OUT2 0 VALUE = { IF( ( V(1) > V(VMID) ), V(2), V(3) ) }R1 OUT2 OUT 1C1 OUT 0 1e-12.ENDS*$%.SUBCKT INNNEWPOR 1 2 3 OUT VDD VSS /EVMID VMID 0 VALUE = { ( V(VDD) + V(VSS) )/2 }AEOUT OUT2 0 VALUE = { IF( ( V(1) < V(VMID) ), V(VSS), V(VDD) ) }R1 OUT2 OUT 1C1 OUT 0 1e-12.ENDS*$%.SUBCKT INPNEWPOR 1 2 3 OUT VDD VSS /EVMID VMID 0 VALUE = { ( V(VDD) + V(VSS) )/2 }AEOUT OUT2 0 VALUE = { IF( ( V(1) < V(VMID) ), V(VDD), V(VSS) ) }R1 OUT2 OUT 1C1 OUT 0 1e-12.ENDS*$.SUBCKT VIN_INV 1 2 VDD VSSAE2 2 0 VALUE = { IF( V(1)> (V(VDD)+V(VSS))/2, V(VSS), V(VDD) ) } C1 2 0 1e-12.ENDS*$.SUBCKT INVERTER 1 2 VDD VSSAE2 2 0 VALUE = { IF( V(1)> (V(VDD)+V(VSS))/2, V(VSS), V(VDD) ) } C1 1 0 1e-12.ENDS*$.SUBCKT MID_SUPPLY OUT VDD VSS/EVMID VMID 0 VALUE = { ( V(VDD) + V(VSS) )/2 }EOUT OUT 0 VALUE = {V(VMID)}.ENDS*$.SUBCKT ORGATE 1 2 3 VDD VSScE1 4 0 VALUE = { IF( ((V(1)< (V(VDD)+V(VSS))/2 ) & (V(2)< (V(VDD)+V(VSS))/2 )), V(VSS), V(VDD) ) } R1 4 3 1 C1 3 0 1e-12.ENDS*$!.SUBCKT NOR_GATE 1 2 OUT VDD VSSgEOUT OUT 0 VALUE = { IF( ((V(1)< (V(VDD)+V(VSS))/2 ) & (V(2)< (V(VDD)+V(VSS))/2 )), V(VDD), V(VSS) ) } R1 OUT 2 1C1 OUT 0 1e-12.ENDS*$'.SUBCKT ORGATE1701 1 2 3 4 OUT VDD VSScEOUT OUT 0 VALUE = { IF( ((V(1)< (V(VDD)+V(VSS))/2 ) & (V(2)< (V(VDD)+V(VSS))/2 )), V(3), V(4) ) }.ENDS*$".SUBCKT PORCHECK 1 2 OUT VDD VSS =EOUT OUT 0 VALUE = { IF( ( V(2) < V(1) ), V(VSS), V(VDD) ) } R1 OUT 2 1 C1 2 0 1e-12.ENDS*$$.SUBCKT Difference 1 2 OUT VDD VSS "EOUT OUT1 0 VALUE = { V(1)- V(2)}R1 OUT1 OUT 1*C1 OUT 0 1e-12.ENDS*$,.SUBCKT SUPPLY_BUFFER1 1 2 VDD_NEW VSS_NEW "EVDD_NEW VDD_NEW 0 VALUE = {V(1)}"EVSS_NEW VSS_NEW 0 VALUE = {V(2)}.ENDS*$#.SUBCKT VCC_Range 1 2 OUT VDD VSS ?EOUT OUT2 0 VALUE = { IF( ( V(1) >= V(2) ), V(VDD), V(VSS) ) }R1 OUT OUT2 1C1 OUT 0 1e-12.ENDS*$&.SUBCKT VINRANGE_393 1 2 OUT VDD VSS ?EOUT OUT2 0 VALUE = { IF( ( V(1) >= V(2) ), V(VSS), V(VDD) ) }R1 OUT2 OUT 1C1 OUT 0 1e-12.ENDS*$1.subckt SHUTDOWNCURRENT SHUTDOWN 2 3 OUT VDD VSSFEOUT OUT2 0 VALUE = {IF ((V(SHUTDOWN) > (V(VSS) + 0.4)), V(2), V(3))}R1 OUT OUT2 1C1 OUT 0 1e-12 .ENDS*$8.subckt SHUTDOWNOUTPUT DISABLE ENABLE SHUTDOWN VSS OUTQEOUT OUT 0 VALUE = {IF ((V(SHUTDOWN) <= (V(VSS) + 0.4)), V(DISABLE), V(ENABLE))}C1 OUT 0 1e-12.ENDS*$ .SUBCKT NORGATE 1 2 OUT VDD VSShEOUT OUT2 0 VALUE = { IF( ((V(1)< (V(VDD)+V(VSS))/2 ) & (V(2)< (V(VDD)+V(VSS))/2 )), V(VDD), V(VSS) ) }R1 OUT2 OUT 1C1 OUT 0 1e-12.ENDS*$4.MODEL NPN1 NPN LEVEL=1 IS=1E-16 RB=850 RC=1 TF=5n *$4.MODEL PNP1 PNP LEVEL=1 IS=1E-16 RB=850 RC=1 TF=5n *$;.SUBCKT LE_HYST LEHYST V- V-_BUF V+_BUF LATCH_OUT HYST_OUT V_VLATCH N00729 V- 1.25)R_RPU N00729 LEHYST 40k TC=0,0 %E_EIN VLE V-_BUF LEHYST V- 1*R_R1 V-_BUF LATCH_OUT 1k TC=0,0 #R_R2 V-_BUF VLE 1k TC=0,0*R_R3 V-_BUF HYST_OUT 1k TC=0,0 AE_ELATCH LATCH_OUT V-_BUF VALUE = { IF( V(VLE)<= 0.4, 0, 5 ) }F*E_EHYST HYST_OUT V-_BUF VALUE = { IF( V(VLE)<= 1.25,V(VLE),0 ) }5E_EHYST HYST_OUT V-_BUF TABLE {V(VLE)} = (0.4,0)+(0.5,0.0636)+(0.55,0.0636)+(0.6,0.0636)+(0.65,0.0636)+(0.7,0.0635)+(0.71,0.0636)+(0.72,0.0635)+(0.73,0.0636)+(0.74,0.0634)+(0.75,0.0635)+(0.76,0.0638)+(0.77,0.0637)+(0.78,0.0637)+(0.79,0.0637)+(0.8,0.0636)+(0.81,0.0636)+(0.82,0.0636)+(0.83,0.0636)+(0.84,0.0425)+(0.85,0.0411)+(0.86,0.0398)+(0.87,0.0386)+(0.88,0.0371)+(0.89,0.0359)+(0.9,0.0347)+(0.91,0.0334)+(0.92,0.032)+(0.93,0.0309)+(0.94,0.0296) +(1,0.0223)+(1.05,0.0164)+(1.1,0.0108)+(1.15,0.0056)+(1.2,0.0007) +(1.25,0).ENDS*$* /.SUBCKT IS_SET VCC VEE DISABLE VIEN VIDIS PBADcGIS VCC1 VEE VALUE = { IF ( (V(PBAD) > 2.5V) , 1u , IF ( V(DISABLE) > 2.5, V(VIEN), V(VIDIS) ) ) }RIS VCC1 VCC 1*RIS2 VCC VEE 100000000.ENDS*$".SUBCKT 4ORGATE 1 2 3 4 5 VDD VSSE1 6 0 VALUE = { IF( ((V(1)> (V(VDD)+V(VSS))/2 ) | (V(2)> (V(VDD)+V(VSS))/2 ) | (V(3)> (V(VDD)+V(VSS))/2 ) | (V(4)> (V(VDD)+V(VSS))/2 )), V(VDD), V(VSS) ) } R1 5 6 1.ENDS*$*$In+In-V+V-OutBy8 TLV3601_OUTT_13771E9020211103115241 NOPCB (VF) BR2T_1220FF5020211103115949R_AX600_W200 (R)?@?Y@Bn8 IN-T_03B2253020211008103230 NOPCB (J)Bn IN+T_03B21F5020211008103230 NOPCB (J)BqLVDS_HT_03B230F020211008103239 NOPCB (J)BqpLVDS_LT_03B25A1020211008103302 NOPCB (J)Bq  LVDS_LT_03B25FF020211008103336 NOPCB (J)BqPLVDS_HT_03B265D020211008103350 NOPCB (J)Bn0IN-T_03B2891020211008103453 NOPCB (J)Bn IN+T_03B27D5020211008103453 NOPCB (J)BrX  VSUPPLYT_045B122020211020112331 NOPCB (J)BrH VSUPPLYT_045B52C020211020114306 NOPCB (J)Br VSUPPLYT_045B58A020211020114351 NOPCB (J)Br( VSUPPLYT_045ABA0020211020115419 NOPCB (J)BfT_10C1479020170120142354 NOPCB (GND)Bf`T_10C17C7020170120142517 NOPCB (GND)Bf(`T_119E9F3020211008102726 NOPCB (GND)Bfx(T_03B22B1020211008103230 NOPCB (GND)Bf0PT_03B2777020211008103453 NOPCB (GND)BfPT_03B26BB020211008103453 NOPCB (GND)BfxT_045AF4C020211020112026 NOPCB (GND)BfXpT_045B066020211020112318 NOPCB (GND)8?y ]@"MbP??ư>'dd?Y@[dddd$@?.A.A.AeAMbP?@@?,i)+P>ư> $ 4@D@ =B?& .>??ư>ư>ư>ư>ư>ư>?I@?I@?I@& .>#i;@& .>-q=ư>MbP?-q=MbP?vIh%<=@@D@& .>?MbP?4@?{Gz?ꌠ9Y>)F@?+=p ~=KH9$@Y@& .>ư>?.AMbP??????I@Default analysis parameters. These parameters establish convergence and sufficient accuracy for most circuits. In case of convergence or accuracy problems click on the "hand " button to Open other parameter sets.?Xd I@nMbP?{Gz?{Gz?MbP????|=Hz>}Ô%ITNoname