No. | Partie # | Fabricant | Description | Fiche Technique |
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Hitachi |
Dot Matrix Liquid Crystal Display Controller/Driver |
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Hitachi Semiconductor |
Digital Signal Processor for CD • Powerful error correction capability: two-symbol C1 correction and four-symbol C2 correction • Quadruple-speed reproduction supported (maintaining two-symbol C1 and four-symbol C2 error correction) • On-chip analog PLL and digital PLL (VCO and phas |
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Hitachi |
(HD44801 / HD44808) 4-Bit Microcomputer |
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Hitachi Semiconductor |
(HD404054 / HD404094) HMCS400-series microcomputers designed to increase program productivity • The differences between HD404054 Series and HD404094 Series HD404054 Series I/O pins 10 large-current output pins: Six 15-mA sinks and four 10-mA sources HD404094 Series • • 6 largecurrent output pins: Two 15-mA sinks and four 10-mA sources 4 inter |
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Hitachi |
Microcomputer |
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Hitachi Semiconductor |
LCD Driver with 80-Channel Outputs |
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Hitachi |
Single Chip CODEC |
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Hitachi Semiconductor |
(HD404339 Series) 4-bit HMCS400-Series microcomputer • 54 I/O pins One input-only pin 53 input/output pins: 30 pins are high-voltage pins (40 V, max.) • On-chip A/D converter (8-bit × 12-channel) • Three timers One event counter input One timer output One input capture timer • 8-bit clock-syn |
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Hitachi |
Single-Chip CODE |
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Hitachi Semiconductor |
4-bit HMCS400-series microcomputer • 34 I/O pins One input-only pin 33 input/output pins: 21 pins are high-voltage pins (40 V, max.) • On-chip A/D converter (8-bit × 8-channel) • Three timers One event counter input One timer output One input capture timer • 8-bit clock-sync |
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Hitachi Semiconductor |
CDS/AGC & 10-bit A/D Converter • Good suppression of CCD output low-frequency noise is achieved through the use of S/H type correlated double sampling. • A high S/N ratio is achieved through the use of a AGC type amplifier, and high sensitivity is provided by a wide cover range. • |
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Hitachi |
RAM Controller |
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Hitachi Semiconductor |
(HD404054 / HD404094) HMCS400-series microcomputers designed to increase program productivity • The differences between HD404054 Series and HD404094 Series HD404054 Series I/O pins 10 large-current output pins: Six 15-mA sinks and four 10-mA sources HD404094 Series • • 6 largecurrent output pins: Two 15-mA sinks and four 10-mA sources 4 inter |
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Hitachi Semiconductor |
(HD404202 / HD404222) CMOS 4-bit Single-Chip Microcomputers |
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Hitachi Semiconductor |
4-Bit Single-Chip Microcomputer |
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Hitachi Semiconductor |
4-bit HMCS400-series microcomputer • 34 I/O pins One input-only pin 33 input/output pins: 21 pins are high-voltage pins (40 V, max.) • On-chip A/D converter (8-bit × 8-channel) • Three timers One event counter input One timer output One input capture timer • 8-bit clock-sync |
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Hitachi Semiconductor |
4-bit HMCS400-series microcomputer • 34 I/O pins One input-only pin 33 input/output pins: 21 pins are high-voltage pins (40 V, max.) • On-chip A/D converter (8-bit × 8-channel) • Three timers One event counter input One timer output One input capture timer • 8-bit clock-sync |
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Hitachi Semiconductor |
4-Bit Single-Chip Microcomputer • 35 I/O pins, including nine high-current pins (15 mA, max.), eight pins multiplexed with LCD segment pins, and four pins multiplexed with analog input pins • Four timer/counters • Eight-bit input capture circuit • Three timer outputs (including two |
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Hitachi |
Error Detection / Correction LSI |
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Hitachi Semiconductor |
(HD404054 / HD404094) HMCS400-series microcomputers designed to increase program productivity • The differences between HD404054 Series and HD404094 Series HD404054 Series I/O pins 10 large-current output pins: Six 15-mA sinks and four 10-mA sources HD404094 Series • • 6 largecurrent output pins: Two 15-mA sinks and four 10-mA sources 4 inter |
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