80 lines
1.5 KiB
Raku
Executable File
80 lines
1.5 KiB
Raku
Executable File
#!/usr/bin/perl
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# Rx Mode and Tx Mode:
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# N = Nint + (Nfrac / 130) = (0.5*Fvco) / 26M
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# where 0 <= Nfrac < 130
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# where 0 <= Ninit <= 127 (as Nint is 7 bit)
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# where Fvco = 4 * Fch (GSM 850/900), Fvco = 2 * Fch (GSM 1800/1900)
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# (Nint + (Nfrac / 130)) * 52 MHz = Fvco
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sub mtk_fvco($$) {
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my ($nint, $nfrac) = @_;
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return ($nint + ($nfrac / 130)) * (26 * 2)
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}
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sub hr() {
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printf("======================================================================\n");
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}
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sub vco_print($$$)
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{
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my ($nint, $nfrac, $hiband) = @_;
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my $fvco = mtk_fvco($nint, $nfrac);
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my $mult;
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if ($hiband == 1) {
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$mult = 2;
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} else {
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$mult = 4;
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}
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printf("Fch=%4.2f (Fvco=%4.2f, Nint=%03u, Nfrac=%03u)\n",
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$fvco/$mult, $fvco, $nint, $nfrac);
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}
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#for (my $nint = 0; $nint <= 127; $nint++) {
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# for (my $nfrac = 0; $nfrac <= 130; $nfrac++) {
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# vco_print($nint, $nfrac);
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# }
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#}
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printf("PLL Rx Low Band:\n");
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for (my $nint = 68; $nint <= 73; $nint++) {
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#for GSM 810
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#for (my $b = 132; $b <= 150; $b++) {
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for (my $nfrac = 0; $nfrac <= 130; $nfrac++) {
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vco_print($nint, $nfrac, 0);
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}
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}
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hr();
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printf("PLL Rx High Band:\n");
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for (my $nint = 69; $nint <= 79; $nint++) {
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for (my $nfrac = 0; $nfrac <= 130; $nfrac++) {
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vco_print($nint, $nfrac, 1);
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}
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}
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hr();
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printf("PLL Tx Low Band:\n");
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for (my $nint = 63; $nint <= 70; $nint++) {
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for (my $nfrac = 0; $nfrac <= 130; $nfrac++) {
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vco_print($nint, $nfrac, 0);
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}
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}
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hr();
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printf("PLL Tx High Band\n");
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for (my $nint = 65; $nint <= 73; $nint++) {
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for (my $nfrac = 0; $nfrac <= 130; $nfrac++) {
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vco_print($nint, $nfrac, 1);
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}
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}
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exit(0);
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