| No. | Part Name | Description |
|---|
| 51 | AN30 | Interfacing the X24C44/45 NOVRAMs to the Motorola 6805 Microcontroller using the SPI Port |
| 52 | AN35 | Interfacing the X24C44/45 NOVRAMs to the Motorola 68HC11 Microcontroller |
| 53 | AN38 | Interfacing the X25640/642 to the Motorola 68HC11 Microcontroller |
| 54 | AN46 | Remotely Adjustable Voltage Regulators using XDCPs |
| 55 | AN48 | Shaft Encoder Drives Multiple XICOR Digitally Controlled Potentiontiometers (XDCPs) |
| 56 | AN49 | Digital Audio Amplifier Gain Control using Logarithmic XICOR Digitally Controlled Potentiontiometers (XDCPs) |
| 57 | AN50 | Op Amp Gain and Offset Trim using XICOR Digitally Controlled Potentiotiometers (XDCPs) |
| 58 | AN51 | Tone, Balance, and Volume Control using a Quad XDCP |
| 59 | AN52 | Power Supply and DC to DC Converter Control using XICOR Digitally Controlled Potentiontiometers (XDCPs) |
| 60 | AN53 | Designing with Xicor Digitally Controlled Potentiometers (XDCPs) |
| 61 | AN56 | NOVRAM AUTOSTORE Considerations |
| 62 | AN69 | The X24C44 NOVRAM Teams up with 8051 Microcontrollers |
| 63 | AN73 | Improving Analog Signal Monitors with XDCPs |
| 64 | AN74 | Software Creates Compatible 64Kbit 2-Wire Serial EEPROMs |
| 65 | AN75 | Interface Software for Xicor SPI Serial Memories |
| 66 | AN80 | Interfacing the X5043 Watchdog Timer to Hitachi H8/3000 Microcontrollers |
| 67 | AN81 | Interfacing 2-wire Serial Memories to Hitachi H8/3000 Microcontrollers |
| 68 | AN82 | Interfacing 3-wire Serial Memories to Hitachi H8/3000 Microcontrollers |
| 69 | AN85 | Interfacing the X24165/325/645 to the Motorola 68HC11 Microcontroller |
| 70 | AN86 | Interfacing the X24165/325/645 to 8051 Microcontrollers |
| 71 | AN87 | Block Lock and Programmable Hardware Write Protection for Xicor’s 2-Wire Serial Devices |
| 72 | AN88 | Evaluation Circuits for XDCP |
| 73 | AN92 | Understanding the Xicor 3-wire XDCP Interface |
| 74 | AN95 | Interfacing to Xicor's X84641/129 MPS EEPROMs |
| 75 | AN98 | Interfacing the Xicor SPI EEPROM Watchdog Timer Family to NEC 78K Microcontrollers |
| 76 | APPLICATION BRIEF | XICOR E²PROMS vs battery backend-up CMOS RAMs nonvolatile memory systems Vol. 3, No. 19 |
| 77 | APPLICATION BRIEF | Fifteen common E²PROM questions answered Vol. 2, No. 17 |
| 78 | APPLICATION BRIEF | E²PROM provides the solution to field alterable software, Vol. 2, No. 15 |
| 79 | APPLICATION BRIEF | Using D̅A̅T̅A̅ polling in an interrupt driven environment Vol. 2, No. 12 |
| 80 | APPLICATION BRIEF | The nine most frequent NOVRAM questions, Vol. 2, No. 10 |
| 81 | APPLICATION BRIEF | Replacing DIP Switches with NONVOLATILE technology, Vol. 1, No. 7 |
| 82 | APPLICATION BRIEF | X2816A Design Allows upgrade to X2864A and beyond |
| 83 | APPLICATION BRIEF | D̅A̅T̅A̅ POLLING AND PAGE WRITE combine to offer improved write timing characteristics, Vol. 1, No. 2 |
| 84 | APPLICATION BRIEF | NONVOLATILE DATA integrity - inadvertent Write/Store eimination, Vol. 1, No. 1 |
| 85 | LAPKIT-X88C75-SLIC | Port Expander and E2 Memory |
| 86 | NOVRAM | RELIABILITY REPORT - NOVRAM is Xicor designation for its nonvolatile RAM memory |
| 87 | PACKAGING | INFORMATIONS about IC packaging from XICOR DATABOOK 1985 |
| 88 | PART NUMBERING | XICOR serial and non-serial NOVRAMs and E²PROMs part numbering system |
| 89 | X1205 | Real Time Clock/Calendar |
| 90 | X1205S8 | Real Time Clock/Calendar |
| 91 | X1205S8I | Real Time Clock/Calendar |
| 92 | X1205V8 | Real Time Clock/Calendar |
| 93 | X1205V8I | Real Time Clock/Calendar |
| 94 | X1226 | Real time clock/calendar with dual alarms, programmable frequency output, on-chip oscillator compensation |
| 95 | X1226S8 | Real Time Clock/Calendar with EEPROM |
| 96 | X1226S8I | Real Time Clock/Calendar with EEPROM |
| 97 | X1226V8 | Real Time Clock/Calendar with EEPROM |
| 98 | X1226V8I | Real Time Clock/Calendar with EEPROM |
| 99 | X1227 | Real Time Clock/Calendar/CPU Supervisor with EEPROM |
| 100 | X1227S8 | Real Time Clock/Calendar/CPU Supervisor with EEPROM |
| | |
