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| 8XC196KC 8XC196KC20 COMMERCIAL EXPRESS CHMOS MICROCONTROLLER 87C196KC 83C196KC 80C196KC 16 and 20 MHz Available 488 Byte Register RAM 28 Interrupt Sources 16 Vectors Peripheral Transaction Server 1 4 ms 16 x 16 Multiply (20 MHz) 2 4 ms 32 16 Divide (20 MHz) Powerdown and Idle Modes Five 8-Bit I O Ports 16-Bit Watchdog Timer Extended Temperature Available 16 Kbytes of On-Chip OTPROM 16 Kbytes ROM ROMless Y Dynamically Configurable 8-Bit or 16-Bit Buswidth Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Register-to-Register Architecture Full Duplex Serial Port High Speed I O Subsystem 16-Bit Timer 16-Bit Up Down Counter with Capture 3 Pulse-Width-Modulated Outputs Four 16-Bit Software Timers 8- or 10-Bit A D Converter with Sample Hold HOLD HLDA Bus Protocol OTPROM One-Time Programmable Version Y Y The 80C196KC 16-bit microcontroller is a high performance member of the MCS 96 microcontroller family The 80C196KC is an enhanced 80C196KB device with 488 bytes RAM 16 and 20 MHz operation and an optional 16 Kbytes of ROM OTPROM Intel's CHMOS III process provides a high performance processor along with low power consumption The 87C196KC is an 80C196KC with 16 Kbytes on-chip OTPROM The 83C196KC is an 80C196KC with 16 Kbytes factory programmed ROM In this document the 80C196KC will refer to all products unless otherwise stated Four high-speed capture inputs are provided to record times when events occur Six high-speed outputs are available for pulse or waveform generation The high-speed output can also generate four software timers or start an A D conversion Events can be based on the timer or up down counter With the commercial (standard) temperature option operational characteristics are guaranteed over the temperature range of 0 C to a 70 C With the extended (Express) temperature range option operational characteristics are guaranteed over the temperature range of b 40 C to a 85 C Unless otherwise noted the specifications are the same for both options See the Packaging information for extended temperature designators Other brands and names are the property of their respective owners Information in this document is provided in connection with Intel products Intel assumes no liability whatsoever including infringement of any patent or copyright for sale and use of Intel products except as provided in Intel's Terms and Conditions of Sale for such products Intel retains the right to make changes to these specifications at any time without notice Microcomputer Products may have minor variations to this specification known as errata COPYRIGHT INTEL CORPORATION 1995 November 1994 Order Number 270942-005 8XC196KC 8XC196KC20 270942 - 1 Figure 1 8XC196KC Block Diagram IOC3 (0CH HWIN1 READ WRITE) 270942 - 45 NOTE RSV Reserved bits must be e 0 Figure 2 8XC196KC New SFR Bit (CLKOUT Disable) 2 8XC196KC 8XC196KC20 PROCESS INFORMATION This device is manufactured on PX29 5 or PX29 9 a CHMOS III process Additional process and reliability information is available in Intel's Components Quality and Reliability Handbook Order Number 210997 Table 2 8XC196KC Memory Map Description External Memory or I O Internal ROM OTPROM or External Memory (Determined by EA) Reserved Must contain FFH (Note 5) PTS Vectors Upper Interrupt Vectors ROM OTPROM Security Key Reserved Must contain FFH (Note 5) 270942 - 43 Address 0FFFFH 06000H 5FFFH 2080H 207FH 205EH 205DH 2040H 203FH 2030H 202FH 2020H 201FH 201AH 2019H 2018H 2017H 2014H 2013H 2000H 1FFFH 1FFEH 1FFDH 0200H 01FFH 0018H 0017H 0000H Reserved Must Contain 20H (Note 5) CCB Reserved Must contain FFH (Note 5) Lower Interrupt Vectors EXAMPLE N87C196KC is 68-Lead PLCC OTPROM 16 MHz For complete package dimensional data refer to the Intel Packaging Handbook (Order Number 240800) NOTE 1 EPROMs are available as One Time Programmable (OTPROM) only Port 3 and Port 4 External Memory 488 Bytes Register RAM (Note 1) Figure 3 The 8XC196KC Family Nomenclature Table 1 Thermal Characteristics Package Type PLCC QFP SQFP ija 35 C W 55 C W TBD ijc 13 C W 16 C W TBD CPU SFR's (Notes 1 3 4) All thermal impedance data is approximate for static air conditions at 1W of power dissipation Values will change depending on operation conditions and application See the Intel Packaging Handbook (order number 240800) for a description of Intel's thermal impedance test methodology NOTES 1 Code executed in locations 0000H to 01FFH will be forced external 2 Reserved memory locations must contain 0FFH unless noted 3 Reserved SFR bit locations must contain 0 4 Refer to 8XC196KC User's manual for SFR descriptions 5 WARNING Reserved memory locations must not be written or read The contents and or function of these locations may change with future revisions of the device Therefore a program that relies on one or more of these locations may not function properly 3 8XC196KC 8XC196KC20 270942 - 2 Figure 4 68-Lead PLCC Package 4 8XC196KC 8XC196KC20 270942 - 40 Figure 5 S8XC196KC 80-Pin QFP Package 5 8XC196KC 8XC196KC20 270942 - 44 Figure 6 80-Pin SQFP Package 6 8XC196KC 8XC196KC20 PIN DESCRIPTIONS Symbol VCC VSS VREF Main supply voltage (5V) Digital circuit ground (0V) There are multiple VSS pins all of which must be connected Reference voltage for the A D converter (5V) VREF is also the supply voltage to the analog portion of the A D converter and the logic used to read Port 0 Must be connected for A D and Port 0 to function Reference ground for the A D converter Must be held at nominally the same potential as VSS Timing pin for the return from powerdown circuit This pin also supplies the programming voltage on the EPROM device Input of the oscillator inverter and of the internal clock generator Output of the oscillator inverter Output of the internal clock generator The frequency of CLKOUT is frequency the oscillator Name and Function ANGND VPP XTAL1 XTAL2 CLKOUT RESET BUSWIDTH Reset input and open drain output Input for buswidth selection If CCR bit 1 is a one this pin selects the bus width for the bus cycle in progress If BUSWIDTH is a 1 a 16-bit bus cycle occurs If BUSWIDTH is a 0 an 8-bit cycle occurs If CCR bit 1 is a 0 the bus is always an 8-bit bus A positive transition causes a vector through 203EH Output high during an external memory read indicates the read is an instruction fetch INST is valid throughout the bus cycle INST is activated only during external memory accesses and output low for a data fetch Input for memory select (External Access) EA equal high causes memory accesses to locations 2000H through 5FFFH to be directed to on-chip ROM EPROM EA equal to low causes accesses to those locations to be directed to off-chip memory Also used to enter programming mode Address Latch Enable or Address Valid output as selected by CCR Both pin options provide a signal to demultiplex the address from the address data bus When the pin is ADV it goes inactive high at the end of the bus cycle ALE ADV is activated only during external memory accesses Read signal output to external memory RD is activated only during external memory reads Write and Write Low output to external memory as selected by the CCR WR will go low for every external write while WRL will go low only for external writes where an even byte is being written WR WRL is activated only during external memory writes Bus High Enable or Write High output to external memory as selected by the CCR BHE will go low for external writes to the high byte of the data bus WRH will go low for external writes where an odd byte is being written BHE WRH is activated only during external memory writes Ready input to lengthen external memory cycles for interfacing to slow or dynamic memory or for bus sharing When the external memory is not being used READY has no effect Inputs to High Speed Input Unit Four HSI pins are available HSI 0 HSI 1 HSI 2 and HSI 3 Two of them (HSI 2 and HSI 3) are shared with the HSO Unit Outputs from High Speed Output Unit Six HSO pins are available HSO 0 HSO 1 HSO 2 HSI 3 HSO 4 and HSO 5 Two of them (HSO 4 and HSO 5) are shared with the HSI Unit 8-bit high impedance input-only port These pins can be used as digital inputs and or as analog inputs to the on-chip A D converter 8-bit quasi-bidirectional I O port 8-bit multi-functional port All of its pins are shared with other functions in the 80C196KC Pins 2 6 and 2 7 are quasi-bidirectional NMI INST EA ALE ADV RD WR WRL BHE WRH READY HSI HSO Port 0 Port 1 Port 2 7 8XC196KC 8XC196KC20 PIN DESCRIPTIONS (Continued) Symbol Ports 3 and 4 HOLD HLDA BREQ PMODE PACT CPVER PALE Name and Function 8-bit bidirectional I O ports with open drain outputs These pins are shared with the multiplexed address data bus which has strong internal pullups Bus Hold input requesting control of the bus Bus Hold acknowledge output indicating release of the bus Bus Request output activated when the bus controller has a pending external memory cycle Determines the EPROM programming mode A low signal in Auto Programming mode indicates that programming is in process A high signal indicates programming is complete Cummulative Program Output Verification Pin is high if all locations have programmed correctly since entering a programming mode A falling edge in Slave Programming Mode and Auto Configuration Byte Programming Mode indicates that ports 3 and 4 contain valid programming address command information (input to slave) A falling edge in Slave Programming Mode indicates that ports 3 and 4 contain valid programming data (input to slave) A high signal in Slave Programmig Mode and Auto Configuration Byte Programming Mode indicates the byte programmed correctly Auto Increment Active low input signal indicates that the auto increment mode is enabled Auto Increment will allow reading or writing of sequential EPROM locations without address transactions across the PBUS for each read or write PROG PVER AINC 8 8XC196KC 8XC196KC20 ELECTRICAL CHARACTERISTICS ABSOLUTE MAXIMUM RATINGS Ambient Temperature Under Bias Storage Temperature Voltage On Any Pin to VSS Voltage from EA or VPP to VSS or ANGND Power Dissipation b 55 C to a 125 C b 65 C to a 150 C b 0 5V to a 7 0V(1) a 13 00V NOTICE This is a production data sheet It is valid for the devices indicated in the revision history The specifications are subject to change without notice WARNING Stressing the device beyond the ``Absolute Maximum Ratings'' may cause permanent damage These are stress ratings only Operation beyond the ``Operating Conditions'' is not recommended and extended exposure beyond the ``Operating Conditions'' may affect device reliability 1 5W(2) NOTE 1 This includes VPP and EA on ROM or CPU only devices 2 Power dissipation is based on package heat transfer limitations not device power consumption OPERATING CONDITIONS Symbol TA TA VCC VREF ANGND FOSC FOSC Description Ambient Temperature Under Bias Commercial Temp Ambient Temperature Under Bias Extended Temp Digital Supply Voltage Analog Supply Voltage Analog Ground Voltage Oscillator Frequency (8XC196KC) Oscillator Frequency (8XC196KC20) Min 0 b 40 Max a 70 a 85 Units C C V V V(1) MHz MHz 4 50 4 00 VSS b 0 4 8 8 5 50 5 50 VSS a 0 4 16 20 NOTE 1 ANGND and VSS should be nominally at the same potential DC CHARACTERISTICS Symbol VIL VIH VIH1 VIH2 VHYS VOL Input Low Voltage (Over Specified Operating Conditions) Min b0 5 Description Typ Max 08 VCC a 0 5 VCC a 0 5 VCC a 0 5 03 0 45 15 08 Units V V V V mV V V V V V V V Test Conditions Input High Voltage (Note 1) Input High Voltage on XTAL 1 Input High Voltage on RESET Hysteresis on RESET Output Low Voltage 0 2 VCC a 1 0 0 7 VCC 22 300 VCC e 5 0V IOL e 200 mA IOL e 2 8 mA IOL e 7 mA IOL e a 0 4 mA IOH e b 200 mA IOH e b 3 2 mA IOH e b 7 mA VOL1 VOH Output Low Voltage in RESET on P2 5 (Note 2) Output High Voltage (Standard Outputs) VCC b 0 3 VCC b 0 7 VCC b 1 5 9 8XC196KC 8XC196KC20 DC CHARACTERISTICS Symbol VOH1 (Over Specified Operating Conditions) (Continued) Min VCC b 0 3 VCC b 0 7 VCC b 1 5 b0 8 Description Output High Voltage (Quasi-bidirectional Outputs) Logical 1 Output Current in Reset on P2 0 Do not exceed this or device may enter test modes Logical 0 Input Current in Reset on P2 0 Maximum current that must be sunk by external device to ensure test mode entry Logical 1 Input Current Maximum current that external device must source to initiate NMI Input Leakage Current (Std Inputs) Input Leakage Current (Port 0) 1 to 0 Transition Current (QBD Pins) Logical 0 Input Current (QBD Pins) Ports 3 and 4 in Reset Active Mode Current in Reset (8XC196KC) Active Mode Current in Reset (8XC196KC20) Idle Mode Current (8XC196KC) Idle Mode Current (8XC196KC20) Powerdown Mode Current A D Converter Reference Current Reset Pullup Resistor Pin Capacitance (Any Pin to VSS) Typ Max Units V V V mA Test Conditions IOH e b 10 mA IOH e b 30 mA IOH e b 60 mA VIH e VCC b 1 5V IOH1 IIL2 TBD mA VIN e 0 45V IIH1 a 200 mA VIN e VCC e 2 4V ILI ILI1 ITL IIL IIL1 ICC ICC IIDLE IIDLE IPD IREF RRST CS g10 g3 mA mA mA mA mA mA mA mA mA mA mA X pF 0 k VIN k VCC b 0 3V 0 k VIN k VREF VIN e 2 0V VIN e 0 45V VIN e 0 45V XTAL1 e 16 MHz VCC e VPP e VREF e 5 5V XTAL1 e 20 MHz VCC e VPP e VREF e 5 5V XTAL1 e 16 MHz VCC e VPP e VREF e 5 5V XTAL1 e 20 MHz VCC e VPP e VREF e 5 5V VCC e VPP e VREF e 5 5V VCC e VPP e VREF e 5 5V VCC e 5 5V VIN e 4 0V b 650 b 70 b 70 65 80 17 21 8 2 6K 75 92 25 30 15 5 65K 10 NOTES 1 All pins except RESET and XTAL1 2 Violating these specifications in Reset may cause the part to enter test modes 3 Commercial specifications apply to express parts except where noted 4 QBD (Quasi-bidirectional) pins include Port 1 P2 6 and P2 7 5 Standard Outputs include AD0-15 RD WR ALE BHE INST HSO pins PWM P2 5 CLKOUT RESET Ports 3 and 4 TXD P2 0 and RXD (in serial mode 0) The VOH specification is not valid for RESET Ports 3 and 4 are open-drain outputs 6 Standard Inputs include HSI pins READY BUSWIDTH RXD P2 1 EXTINT P2 2 T2CLK P2 3 and T2RST P2 4 7 Maximum current per pin must be externally limited to the following values if VOL is held above 0 45V or VOH is held below VCC b 0 7V IOL on Output pins 10 mA IOH on quasi-bidirectional pins self limiting IOH on Standard Output pins 10 mA 8 Maximum current per bus pin (data and control) during normal operation is g3 2 mA 9 During normal (non-transient) conditions the following total current limits apply IOH is self limiting Port 1 P2 6 IOL 29 mA IOH 26 mA HSO P2 0 RXD RESET IOL 29 mA IOL 13 mA IOH 11 mA P2 5 P2 7 WR BHE IOH 52 mA AD0 - AD15 IOL 52 mA IOH 13 mA RD ALE INST-CLKOUT IOL 13 mA 10 8XC196KC 8XC196KC20 270942 - 17 ICC Max e 4 13 c Frequency a 9 mA ICC Typ e 3 50 c Frequency a 9 mA IIDLE Max e 1 25 c Frequency a 5 mA IIDLE Typ e 0 88 c Frequency a 3 mA NOTE Frequencies below 8 MHz are shown for reference only no testing is performed Figure 7 ICC and IIDLE vs Frequency AC CHARACTERISTICS For use over specified operating conditions Test Conditions Capacitive load on all pins e 100 pF Rise and fall times e 10 ns FOSC e 16 MHz The system must meet these specifications to work with the 80C196KC Symbol TAVYV TYLYH TCLYX TLLYX TAVGV TCLGX TAVDV TRLDV TCLDV TRHDZ TRXDX Description Address Valid to READY Setup Non READY Time READY Hold after CLKOUT Low READY Hold after ALE Low Address Valid to Buswidth Setup Buswidth Hold after CLKOUT Low Address Valid to Input Data Valid RD Active to Input Data Valid CLKOUT Low to Input Data Valid End of RD to Input Data Float Data Hold after RD Inactive 0 0 3 TOSC b 55 TOSC b 22 TOSC b 45 TOSC 0 TOSC b 15 Min Max 2 TOSC b 68 No upper limit TOSC b 30 2 TOSC b 40 2 TOSC b 68 Units ns ns ns ns ns ns ns ns ns ns ns (Note 2) (Note 2) (Note 1) (Note 1) Notes NOTES 1 If max is exceeded additional wait states will occur 2 If wait states are used add 2 TOSC N where N e number of wait states 11 8XC196KC 8XC196KC20 AC CHARACTERISTICS (Continued) For user over specified operating conditions Test Conditions Capacitive load on all pins e 100 pF Rise and fall times e 10 ns FOSC e 16 MHz The 80C196KC will meet these specifications Symbol FXTAL FXTAL TOSC TOSC TXHCH TCLCL TCHCL TCLLH TLLCH TLHLH TLHLL TAVLL TLLAX TLLRL TRLCL TRLRH TRHLH TRLAZ TLLWL TCLWL TQVWH TCHWH TWLWH TWHQX TWHLH TWHBX TWHAX TRHBX TRHAX Description Frequency on XTAL1 (8XC196KC) Frequency on XTAL1 (8XC196KC20) I FXTAL (8XC196KC) I FXTAL (8XC196KC20) XTAL1 High to CLKOUT High or Low CLKOUT Cycle Time CLKOUT High Period CLKOUT Falling Edge to ALE Rising ALE Falling Edge to CLKOUT Rising ALE Cycle Time ALE High Period Address Setup to ALE Falling Edge Address Hold after ALE Falling Edge ALE Falling Edge to RD Falling Edge RD Low to CLKOUT Falling Edge RD Low Period RD Rising Edge to ALE Rising Edge RD Low to Address Float ALE Falling Edge to WR Falling Edge CLKOUT Low to WR Falling Edge Data Stable to WR Rising Edge CLKOUT High to WR Rising Edge WR Low Period Data Hold after WR Rising Edge WR Rising Edge to ALE Rising Edge BHE INST after WR Rising Edge AD8-15 HOLD after WR Rising BHE INST after RD Rising Edge AD8-15 HOLD after RD Rising TOSC b 10 0 TOSC b 23 b5 a 15 a 25 Min 8 8 62 5 50 a 20 Max 16 20 125 125 a 110 Units MHz MHz ns ns ns ns ns ns ns ns Notes (Note 1) (Note 1) 2 TOSC TOSC b 10 b5 b 20 TOSC a 15 a 15 a 15 4 TOSC TOSC b 10 TOSC b 15 TOSC b 35 TOSC b 30 a4 a 30 (Note 4) TOSC a 10 ns ns ns ns ns TOSC a 25 a5 TOSC b 5 TOSC (Note 4) (Note 2) ns ns ns ns (Note 4) ns ns ns TOSC a 15 ns ns ns ns ns (Note 3) (Note 3) (Note 2) (Note 4) TOSC b 20 TOSC b 25 TOSC b 10 TOSC b 10 TOSC b 30 TOSC b 10 TOSC b 25 NOTES 1 Testing performed at 8 MHz However the device is static by design and will typically operate below 1 Hz 2 Assuming back-to-back bus cycles 3 8-Bit bus only 4 If wait states are used add 2 TOSC N where N e number of wait states 12 8XC196KC 8XC196KC20 System Bus Timings 270942 - 18 13 8XC196KC 8XC196KC20 READY Timings (One Wait State) 270942 - 20 Buswidth Timings 270942 - 35 14 8XC196KC 8XC196KC20 HOLD HLDA Timings Symbol THVCH TCLHAL TCLBRL THALAZ THALBZ TCLHAH TCLBRH THAHAX THAHBV TCLLH HOLD Setup CLKOUT Low to HLDA Low CLKOUT Low to BREQ Low HLDA Low to Address Float HLDA Low to BHE INST RD WR Weakly Driven CLKOUT Low to HLDA High CLKOUT Low to BREQ High HLDA High to Address No Longer Float HLDA High to BHE INST RD WR Valid CLKOUT Low to ALE High b 15 b 15 b 15 b 10 b5 a 15 a 15 Description Min a 55 b 15 b 15 Max Units ns Notes (Note 1) a 15 a 15 a 15 a 20 a 15 a 15 ns ns ns ns ns ns ns ns ns NOTE 1 To guarantee recognition at next clock DC SPECIFICATIONS IN HOLD Description Weak Pullups on ADV RD WR WRL BHE Weak Pulldowns on ALE INST Min 50K 10K Max 250K 50K Units VCC e 5 5V VIN e 0 45V VCC e 5 5V VIN e 2 4 15 8XC196KC 8XC196KC20 270942 - 36 Maximum Hold Latency Bus Cycle Type Internal Execution 16-Bit External Execution 8-Bit External Execution 1 5 States 2 5 States 4 5 States EXTERNAL CLOCK DRIVE (8XC196KC) Symbol 1 TXLXL TXLXL TXHXX TXLXX TXLXH TXHXL Parameter Oscillator Frequency Oscillator Period High Time Low Time Rise Time Fall Time Min 8 62 5 20 20 10 10 Max 16 0 125 Units MHz ns ns ns ns ns 16 8XC196KC 8XC196KC20 EXTERNAL CLOCK DRIVE (8XC196KC20) Symbol 1 TXLXL TXLXL TXHXX TXLXX TXLXH TXHXL Parameter Oscillator Frequency Oscillator Period High Time Low Time Rise Time Fall Time Min 8 50 17 17 8 8 Max 20 0 125 Units MHz ns ns ns ns ns EXTERNAL CLOCK DRIVE WAVEFORMS 270942 - 21 EXTERNAL CRYSTAL CONNECTIONS EXTERNAL CLOCK CONNECTIONS 270942 - 41 270942 - 42 NOTE Keep oscillator components close to chip and use short direct traces to XTAL1 XTAL2 and VSS When 20 pF When using ceramic using crystals C1 e C2 resonators consult manufacturer for recommended circuitry NOTE Required if TTL driver used Not needed if CMOS driver is used AC TESTING INPUT OUTPUT WAVEFORMS FLOAT WAVEFORMS 270942 - 22 AC Testing inputs are driven at 2 4V for a Logic ``1'' and 0 45V for a Logic ``0'' Timing measurements are made at 2 0V for a Logic ``1'' and 0 8V for a Logic ``0'' 270942 - 23 For Timing Purposes a Port Pin is no Longer Floating when a 150 mV change from Load Voltage Occurs and Begins to Float when a 150 mV change from the Loaded VOH VOL Level occurs IOL IOH e g15 mA 17 8XC196KC 8XC196KC20 EXPLANATION OF AC SYMBOLS Each symbol is two pairs of letters prefixed by ``T'' for time The characters in a pair indicate a signal and its condition respectively Symbols represent the time between the two signal condition points Conditions H L V X Z High Low Valid No Longer Valid Floating Signals A B C D G H HA Address BHE CLKOUT DATA Buswidth HOLD HLDA L BR R W X Y Q ALE ADV BREQ RD WR WRH WRL XTAL1 READY Data Out AC CHARACTERISTICS SERIAL PORT TIMING Symbol TXLXL TXLXH TXLXL TXLXH TQVXH TXHQX TXHQV TDVXH TXHDX TXHQZ SERIAL PORT SHIFT REGISTER MODE SHIFT REGISTER MODE (MODE 0) Parameter Min 6 TOSC 4 TOSC b 50 4 TOSC 2 TOSC b 50 2 TOSC b 50 2 TOSC b 50 2 TOSC a 50 TOSC a 50 0 1 TOSC 2 TOSC a 50 4 TOSC a 50 Max Units ns ns ns ns ns ns ns ns ns ns Serial Port Clock Period (BRR t 8002H) Serial Port Clock Falling Edge to Rising Edge (BRR t 8002H) Serial Port Clock Period (BRR e 8001H) Serial Port Clock Falling Edge to Rising Edge (BRR e 8001H) Output Data Setup to Clock Rising Edge Output Data Hold after Clock Rising Edge Next Output Data Valid after Clock Rising Edge Input Data Setup to Clock Rising Edge Input Data Hold after Clock Rising Edge Last Clock Rising to Output Float WAVEFORM SERIAL PORT SHIFT REGISTER MODE SERIAL PORT WAVEFORM SHIFT REGISTER MODE (MODE 0) 270942 - 24 18 8XC196KC 8XC196KC20 A to D CHARACTERISTICS The A D converter is ratiometric so absolute accuracy is dependent on the accuracy and stability of VREF 10-BIT MODE A D OPERATING CONDITIONS Symbol TA TA VCC VREF TSAM TCONV FOSC FOSC Description Ambient Temperature Commercial Temp Ambient Temperature Extended Temp Digital Supply Voltage Analog Supply Voltage Sample Time Conversion Time Oscillator Frequency (8XC196KC) Oscillator Frequency (8XC196KC20) Min 0 b 40 Max a 70 a 85 Units C C V V ms(1) ms(1) MHz MHz 4 50 4 00 10 10 80 80 5 50 5 50 20 16 0 20 0 NOTE ANGND and VSS should nominally be at the same potential 0 00V 1 The value of AD TIME is selected to meet these specifications 10-BIT MODE A D CHARACTERISTICS (Over Specified Operating Conditions) Parameter Resolution Absolute Error Full Scale Error Zero Offset Error Non-Linearity Differential Non-Linearity Error Channel-to-Channel Matching Repeatability Temperature Coefficients Offset Full Scale Differential Non-Linearity Off Isolation Feedthrough VCC Power Supply Rejection Input Series Resistance Voltage on Analog Input Pin DC Input Leakage Sampling Capacitor 3 b 60 b 60 g0 1 g0 25 Typical(1) Minimum 1024 10 0 Maximum 1024 10 g3 Units Levels Bits LSBs LSBs LSBs Notes 0 25 g 0 5 0 25 g 0 5 10g20 0 lb 1 g3 LSBs LSBs LSBs LSBs LSB C LSB C LSB C a2 g1 0 0 009 0 009 0 009 b 60 dB dB dB 12 1 1 4 56 750 ANGND b 0 5 0 1 2K VREF a 0 5 g3 0 X V mA pF NOTES An ``LSB'' as used here has a value of approxiimately 5 mV (See Embedded Microcontrollers and Processors Handbook for A D glossary of terms) 1 These values are expected for most parts at 25 C but are not tested or guaranteed 2 DC to 100 KHz 3 Multiplexer Break-Before-Make is guaranteed 4 Resistance from device pin through internal MUX to sample capacitor 5 These values may be exceeded if the pin current is limited to g2 mA 6 Applying voltages beyond these specifications will degrade the accuracy of all channels being converted 7 All conversions performed with processor in IDLE mode 19 8XC196KC 8XC196KC20 8-BIT MODE A D OPERATING CONDITIONS Symbol TA TA VCC VREF TSAM TCONV FOSC FOSC Description Ambient Temperature Commercial Temp Ambient Temperature Extended Temp Digital Supply Voltage Analog Supply Voltage Sample Time Conversion Time Oscillator Frequency (8XC196KC) Oscillator Frequency (8XC196KC20) Min 0 b 40 Max a 70 a 85 Units C C V V ms(1) ms(1) MHz MHz 4 50 4 00 10 7 80 80 5 50 5 50 20 16 0 20 0 NOTE ANGND and VSS should nominally be at the same potential 0 00V 1 The value of AD TIME is selected to meet these specifications 8-BIT MODE A D CHARACTERISTICS Parameter Resolution Absolute Error Full Scale Error Zero Offset Error Non-Linearity Differential Non-Linearity Error Channel-to-Channel Matching Repeatability Temperature Coefficients Offset Full Scale Differential Non-Linearity Off Isolation Feedthrough VCC Power Supply Rejection Input Series Resistance Voltage on Analog Input Pin DC Input Leakage Sampling Capacitor 3 b 60 b 60 g0 25 g0 5 g0 5 (Over Specified Operating Conditions) Minimum 256 8 0 Maximum 256 8 g1 Typical Units Levels Bits LSBs LSBs LSBs Notes 0 lb 1 g1 LSBs LSBs LSBs LSBs LSB C LSB C LSB C a1 g1 0 003 0 003 0 003 b 60 dB dB dB 23 2 2 4 56 750 VSS b 0 5 0 1 2K VREF a 0 5 g3 0 Xs V mA pF NOTES An ``LSB'' as used here has a value of approximately 20 mV (See Embedded Microcontrollers and Processors Handbook for A D glossary of terms) 1 These values are expected for most parts at 25 C but are not tested or guaranteed 2 DC to 100 KHz 3 Multiplexer Break-Before-Make is guaranteed 4 Resistance from device pin through internal MUX to sample capacitor 5 These values may be exceeded if pin current is limited to g2 mA 6 Applying voltages beyond these specifications will degrade the accuracy of all channels being converted 7 All conversions performed with processor in IDLE mode 20 8XC196KC 8XC196KC20 EPROM SPECIFICATIONS OPERATING CONDITIONS DURING PROGRAMMING Symbol TA VCC VREF VPP VEA FOSC FOSC FOSC Description Ambient Temperature During Programming Supply Voltage During Programming Reference Supply Voltage During Programming Programming Voltage EA Pin Voltage Oscillator Frequency During Auto and Slave Mode Programming Oscillator Frequency During Run-Time Programming (8XC196KC) Oscillator Frequency During Run-Time Programming (8XC196KC20) Min 20 45 45 12 25 12 25 60 60 60 Max 30 55 55 12 75 12 75 80 16 0 20 0 Units C V(1) V(1) V(2) V(2) MHz MHz MHz NOTES 1 VCC and VREF should nominally be at the same voltage during programming 2 VPP and VEA must never exceed the maximum specification or the device may be damaged 3 VSS and ANGND should nominally be at the same potential (0V) 4 Load capacitance during Auto and Slave Mode programming e 150 pF AC EPROM PROGRAMMING CHARACTERISTICS Symbol TSHLL TLLLH TAVLL TLLAX TPLDV TPHDX TDVPL TPLDX TPLPH(1) TPHLL TLHPL TPHPL TPHIL TILIH TILVH TILPL TPHVL Description Reset High to First PALE Low PALE Pulse Width Address Setup Time Address Hold Time PROG Low to Word Dump Valid Word Dump Data Hold Data Setup Time Data Hold Time PROG Pulse Width PROG High to Next PALE Low PALE High to PROG Low PROG High to Next PROG Low PROG High to AINC Low AINC Pulse Width PVER Hold after AINC Low AINC Low to PROG Low PROG High to PVER Valid 0 400 50 220 220 220 0 240 50 170 220 Min 1100 50 0 100 50 50 Max Units TOSC TOSC TOSC TOSC TOSC TOSC TOSC TOSC TOSC TOSC TOSC TOSC TOSC TOSC TOSC TOSC TOSC NOTE 1 This specification is for the Word Dump Mode For programming pulses use the Modified Quick Pulse Algorithm See user's manual for further information 21 8XC196KC 8XC196KC20 DC EPROM PROGRAMMING CHARACTERISTICS Symbol IPP Description VPP Supply Current (When Programming) Min Max 100 Units mA NOTE Do not apply VPP until VCC is stable and within specifications and the oscillator clock has stabilized or the device may be damaged EPROM PROGRAMMING WAVEFORMS SLAVE PROGRAMMING MODE DATA PROGRAM MODE WITH SINGLE PROGRAM PULSE 270942 - 27 NOTE P3 0 must be high (``1'') SLAVE PROGRAMMING MODE IN WORD DUMP WITH AUTO INCREMENT 270942 - 28 NOTE P3 0 must be low (``0'') 22 8XC196KC 8XC196KC20 SLAVE PROGRAMMING MODE TIMING IN DATA PROGRAM WITH REPEATED PROG PULSE AND AUTO INCREMENT 270942 - 29 8XC196KB TO 8XC196KC DESIGN CONSIDERATIONS 1 Memory Map The 8XC196KC has 512 bytes of RAM SFRs and an optional 16K of ROM OTPROM The extra 256 bytes of RAM will reside in locations 100H-1FFH and the extra 8K of ROM OTPROM will reside in locations 4000H-5FFFH These locations are external memory on the 8XC196KB 2 The CDE pin on the KB has become a VSS pin on the KC to support 16 20 MHz operation 3 EPROM programming The 8XC196KC has a different programming algorithm to support 16K of on-board memory When performing Run-Time Programming use the section of code in the 8XC196KC User's Guide 4 ONCE Mode Entry The ONCE mode is entered on the 8XC196KC by driving the TXD pin low on the rising edge of RESET The TXD pin is held high by a pullup that is specified by IOH1 This Pullup must not be overridden or the 8XC196KC will enter the ONCE mode 5 During the bus HOLD state the 8XC196KC weakly holds RD WR ALE BHE and INST in their inactive states The 8XC196KB only holds ALE in its inactive state 6 A RESET pulse from the 8XC196KC is 16 states rather than 4 states as on the 8XC196KB (i e a watchdog timer overflow) This provides a longer RESET pulse for other devices in the system 8XC196KC ERRATA 1 Missed EXTINT on P0 7 The 80C196KC20 could possibly miss an EXTINT on P0 7 See techbit MC0893 2 HSI MODE divide-by-eight See Faxback 2192 3 IPD hump See Faxback 2311 23 8XC196KC 8XC196KC20 DATA SHEET REVISION HISTORY This data sheet is valid for devices with a ``H'' ``L'' or ``M'' at the end of the topside tracking number The topside tracking number consists of nine characters and is the second line on the top side of the device Data sheets are changed as new device information becomes available Verify with your local Intel sales office that you have the latest version before finalizing a design or ordering devices The following are differences between the 270942-004 and 270942-005 datasheets 1 Removed ``Word Addressable Only'' from Port 3 and 4 in Table 2 2 Renamed PVAL to CPVER 3 Removed TLLYV and TLLGV from the waveform diagrams 4 Added HSI MODE divide-by-eight and IPD hump to 8XC196KC errata The following are important differences between the 270942-002 and 270942-004 data sheets 1 NMI during PTS QBD port glitch and Divide HOLD READY erratas were fixed and have been removed from the data sheet The HSI errata is also removed as this is now considered normal operation 2 Combined 16 and 20 MHz data sheets Data sheet 270924-001 (20 MHz) is now obsolete 3 Added 80-lead SQFP package pinout 4 Added documentation for CLKOUT disable bit 5 iJA for QFP package was changed to 55 C W from 42 C W 6 iJC for QFP package was changed to 16 C W from TBD C W 7 TSAM (MIN) in 10-bit mode was changed to 1 0 ms from 3 0 ms 8 TSAM (MIN) in 8-bit mode was changed to 1 0 ms from 2 0 ms 9 IIL1 specification for port 2 0 was renamed IIL2 10 IIL2 (MAX) is changed to TBD from b 6 mA 11 IIH1 (MAX) is changed to a 200 mA from a 100 mA 12 13 14 15 16 IIH1 test condition changes to VIN e 2 4V from VIN e 5 5V VHYS is changed to 300 mV from 150 mV ICC (TYP) at 16 MHz is changed to 65 mA from 50 mA ICC (MAX) at 16 MHz is changed to 75 mA from 70 mA ICC (TYP) at 20 MHz is changed to 80 mA from 60 mA 17 ICC (MAX) at 20 MHz is changed to 92 mA from 86 mA 18 IIDLE (TYP) at 16 MHz is changed to 17 mA from 15 mA 19 IIDLE (MAX) at 16 MHz is changed to 25 mA from 30 mA 20 IIDLE (TYP) at 20 MHz is changed to 21 mA from 15 mA 21 IIDLE (MAX) at 20 MHz is changed to 30 mA from 35 mA 22 IPD (TYP) at 16 MHz is changed to 8 mA from 15 mA 23 24 25 26 27 28 29 30 31 IPD (MAX) at 16 MHz is changed to 15 mA from TBD IPD (TYP) at 20 MHz is changed to 8 mA from 18 mA IPD (MAX) at 20 MHz is changed to 15 mA from TBD TCLDV (MAX) is changed to TOSC b 45 ns from TOSC b 50 ns TLLAX (MIN) is changed to TOSC b 35 ns from TOSC b 40 ns TCHWH (MIN) is changed to b 5 ns from b 10 ns TRHAX (MIN) is changed to TOSC b 25 ns from TOSC b 30 ns THALAZ (MAX) is changed to a 15 ns from a 10 ns THALBZ (MAX) is changed to a 20 ns from a 15 ns 24 8XC196KC 8XC196KC20 32 THAHBV (MAX) is now specified at a 15 ns was formerly unspecified 33 The TLLYV and TLLGV specifications were removed These specifications are not required in high-speed systems designs 34 Added EXTINT P0 7 errata to Errata section The following are the important differences between the -001 and -002 versions of data sheet 270942 1 Express and Commercial devices are combined into one data sheet The Express only data sheet 270794-001 is obsolete 2 Removed KB KC feature set differences pin definition table and SFR locations and bitmaps 3 Added programming pin function to package drawings and pin descriptions 4 Changed absolute maximum temperature under bias from 0 C to a 70 C to b 55 C to a 125 C 5 Replaced VOH2 specification with IOH1 and IIL1 specifications 6 Added IIH1 specification for NMI pulldown resistors 7 Added maximum hold latency table 8 Added external oscillator and external clock circuit drawings 9 Changed Clock Drive TXHXX and TXLXX Min spec to 20 ns 10 Fixed Serial Port TXLXH specification 11 Added 8- and 10-bit mode A D operating conditions tables 12 Specified operating range for sample and convert times 13 Added specification for voltage on analog input pin 14 Put operating conditions for EPROM programming into tabular format 25 This datasheet has been downloaded from: www..com Datasheets for electronic components. |
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