MX10C8052QC [Macronix]
Microcontroller, 8-Bit, MROM, 40MHz, CMOS, PQCC44, PLASTIC, LCC-44;型号: | MX10C8052QC |
厂家: | MACRONIX INTERNATIONAL |
描述: | Microcontroller, 8-Bit, MROM, 40MHz, CMOS, PQCC44, PLASTIC, LCC-44 时钟 微控制器 外围集成电路 |
文件: | 总14页 (文件大小:94K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
ADVANCED INFORMATION
MX10C805X
SINGLE-CHIP 8-BIT MICROCONTROLLER
FEATURE
• High performance CMOS ROM CPU
• OperationVoltage5V
• ROMCodeprotection
• Two priority levels
• Up to 40MHz operation (3.5MHz to 40MHz)
• Three 16-bit timer/counters
• 256 Bytes of on-chip data RAM
• 4/8/16/32/64 Kbytes on-chip Program memory
• 32 Programmable I/O lines
• Power saving Idle and power down modes
• 64 K external program memory space
• 64 K external data memory space
• Available in PLCC, PQFP, and PDIP package
• Four 8-bit I/O ports
• On-chip Watch-Dog-Timer (WDT)
• 6 interrupt Sources
• Full-duplexenhancedUARTcompatiblewiththestan-
dard 80C51 and the 80C52
• Extended Temperature Range (-40°C to +85°C)
GENERAL DESCRIPTION
The single-chip 8-bit microcontroller is manufactured in
MXIC's advanced CMOS process. This device uses the
same powerful instruction set, has the same architec-
ture, and is pin-to-pin compatible with the existing 80C51.
The added features make it an even more powerful
microcontroller for applications that require clock out-
put, and up/down counting capabilities such as motor
control. It also has a more versatile serial channel that
facilitates multi-processor communications.
PIN CONFIGURATIONS
44 PLCC
VCC
40 PDIP
(T2) P1.0
(T2EX) P1.1
P1.2
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
1
P0.0 (AD0)
P0.1 (AD1)
P0.2 (AD2)
P0.3 (AD3)
P0.4 (AD4)
P0.5 (AD5)
P0.6 (AD6)
P0.7 (AD7)
EA
2
6
1
44
40
39
3
P0.4
P0.5
P0.6
P0.7
EA
P1.5
P1.6
P1.7
RST
P3.0
N.C.
P3.1
P3.2
P3.3
P3.4
P3.5
7
P1.3
4
P1.4
5
P1.5
6
P1.6
7
P1.7
8
N.C.
ALE
PSEN
P2.7
P2.6
P2.5
12
34
MX10C805X
RESET
(RXD) P3.0
(TXD)P3.1
(INT0) P3.2
(INT1) P3.3
(T0) P3.4
(T1) P3.5
(WR) P3.6
(RD) P3.7
XTAL2
9
10
11
12
13
14
15
16
17
18
19
20
ALE
PSEN
P2.7 (A15)
P2.6 (A14)
P2.5 (A13)
P2.4 (A12)
P2.3 (A11)
P2.2 (A10)
P2.1 (A9)
P2.0 (A8)
17
29
28
18
23
XTAL1
44 PQFP
VSS
34
33
44
1
P1.5
P0.4
P1.6
P1.7
RST
P3.0
N.C.
P3.1
P3.2
P3.3
P3.4
P3.5
P0.5
P0.6
P0.7
EA
N.C.
ALE
PSEN
P2.7
P2.6
P2.5
MX10C805X
11
12
23
22
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REV. 0.3, APR. 09, 1999
1
MX10C805X
BLOCK DIAGRAM
P0.0-P0.7
P2.0-P2.7
Vcc
Vss
PORT 0
PORT 2
DRIVERS
DRIVERS
PORT 0
LATCH
PORT 2
LATCH
ROM
RAM
PROGRAM
ADDR.
T3
STACK
POINTER
ACC
WATCHDOG
TIMER
REGISTER
TMP2
TMP1
BUFFER
B
REGISTER
ALU
PC
INCREMENTER
T0/T1/T2
SFRs
TIMERS
PSW
PROGRAM
COUNTER
PSEN
ALE
EA
TIMING
DPTR
AND
CONTROL
RST
PORT 1
LATCH
PORT 3
LATCH
PORT 1
PORT 3
OSC.
DRIVERS
DRIVERS
XTAL2
XTAL1
P1.0-P1.7
P3.0-P3.7
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2
MX10C805X
In additional, Port 1 serves the functions of the following
special features of the MX10C805X :
PROCESS INFORMATION
This device is manufactured on a MXIC CMOS process.
Port Pin
P1.0
Alternate Function
PACKAGES
T2 (External Count Input to Timer/
Counter 2), Clock-Out
MX10C805
1
P
C
P1.1
T2EX (Timer/Counter 2 Capture/Reload
Trigger and Direction Control)
Temperature
C=0°C to 70°C
I=-40°C to 85°C
Port 2 : Port 2 is an 8-bit bidirectional I/O port with inter-
nal pullups. The port 2 output buffers can drive LS TTL
inputs. Port 2 pins that have 1's written to them are
pulled high by the internal pullups, and in that state can
be used as inputs. As inputs, Port 2 pins that are exter-
nally pulled low will source current (IIL, on the data sheet)
because of the internal pullups.
Package
P=PDIP
Q=PLCC
F=PQFP
ROM Size
0=64K Bytes
1=4K Bytes
2=8K Bytes
4=16K Bytes
8=32K Bytes
Port 2 emits the high-order address byte during fetches
from external Program Memory and during accesses to
external Data Memory that use 16-bit addresses (MOVX
@DPTR). In this application it uses strong internal
pullups when emitting 1's. During accesses to external
Data Memory that use 8-bit addresses (MOVX @Ri),
Port 2 emits the contents of the P2 Special Function
Register.
PIN DESCRIPTIONS
VCC : Supply voltage.
Port 3 : Port 3 is an 8-bit bidirectional I/O port with inter-
nal pullups. The port 3 output buffers can drive LS TTL
inputs. Port 3 pins that have 1's written to them are
pulled high by the internal pullups, and in that state can
be used as inputs. As inputs, Port 3 pins that are exter-
nally pulled low will source current (IIL, on the data sheet)
because of the internal pullups.
VSS : Circuit ground.
Port 0 : Port 0 is an 8-bit, open drain, bidirectional I/O
port. As an output port each pin can sink several LS
TTL inputs. Port 0 pins that have 1's written to them
float, and in that state can be used as high-impedance
inputs.
Port 3 also serves the function of various special fea-
tures of the 8051 Family, as listed below :
Port 0 is also the multiplexed low-order address and data
bus during accesses to external Program and Data
Memory. In this application it uses strong internal pullups
when emitting 1's, and can source and sink serveral LS
TTL inputs.
Port Pin Alternate Function
P3.0
P3.1
P3.2
P3.3
P3.4
P3.5
P3.6
P3.7
RXD (serial input port)
TXD (serial output port)
INT0 (external interrupt 0)
Port 1 : Port 1 is an 8-bit bidirectional I/O port with inter-
nal pullups. The port 1 output buffers can drive LS TTL
inputs. Port 1 pins that have 1's written to them are
pulled high by the internal pullups, and in that state can
be used as inputs. As inputs, Port 1 pins that are exter-
nally pulled low will source current (IIL, on the data sheet)
because of the internal pullups.
INT1 (external interrupt 1)
T0 (Timer 0 external input)
T1 (Timer 1 external input)
WR (external data memory write sttobe)
RD (external data memory read strobe)
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3
MX10C805X
OSCILLATOR CHARACTERISTICS
RST : Reset input. A high on this pin for two machine
cycles while the oscillator is running resets the device.
The port pins will be driven to their reset condition when
a minimum VIHI voltage is applied whether the oscilla-
tor is running or not. An internal pulldown resistor per-
mits a power-on reset with only a capacitor connected
to VCC.
XTAL1 and XTAL2 are the input and output, respectively,
of a inverting amplifier which can be configured for use
as an on-chip oscillator, as shown in Figure 3. Either a
quartz crystal or ceramic resonator may be used.
C2
ALE : Address Latch Enable output pulse for latching
the low byte of the address during accesses to external
memory.
XTAL2
C1
XTAL1
In normal operation ALE is emitted at a constant rate of
1/6 the oscillator frequency, and may be used for exter-
nal timing or clocking purposes. Note, however, that
one ALE pulse is skipped during each access to exter-
nal Data Memory.
VSS
C1, C2 = 30 pF is equal to or less than 10 pF for Crystal
For Ceramic Resonators,contact resonator manufacture.
Figure 3. Oscillator Connections
If desired, ALE operation can be disabled by setting bit
5 of SFR location 87H (PCON). With this bit set, the pin
is weakly pulled high. However, the ALE disable feature
will be suspended during a MOVX or MOVC instruction,
idle mode, power down mode. The ALE disable feature
will be terminated by reset. When the ALE disable fea-
ture is suspended or terminated, the ALE pin will no
longer be pulled up weakly. Setting the ALE-disable bit
has no affect if the micrcontroller is in external execu-
tion mode.
To drive the device from an external clock source, XTAL1
should be driven, while XTAL2 floats, as shown in Fig-
ure 4. There are no requirememts on the duty cycle of
the external clock signal, since the input to the internal
clocking circuitry is through a divide-by-two flip-flop, but
minimum and maximum high and low times specified
on the data sheet must be observed.
Throughout the remainder of this data sheet, ALE will
refer to the signal coming out of the ALE pin, and the pin
will be referred to as the ALE pin.
An external oscillator may encounter as much as a 100
pF load at XTAL1 when it starts up. This is due to inter-
action between the amplifer and its feedback capaci-
tance. Once the external signal meets the VIL and VIH
specifications the capacitance will not exceed 20 pF.
PSEN : Program Store Enable is the read strobe to ex-
ternal Program Memory.
When the MX10C805X is executing code from external
Program memory, PSEN is activated twice each ma-
chine cycle, except that two PSEN activations are
skipped during each access to external Data memory.
N/C
XTAL2
EXTERNAL
OSCILLATOR
SIGNAL
EA/VPP :Extrernal Access enable. EA must be strapped
to VSS in order to enable the twiceto fetch code from
external Program Memory locations 0000H to 0FFFFH.
EA will be internally latched on reset.
XTAL1
VSS
EA should be strapped to VCC for internal program ex-
ecutions.
Figure 4. External Clock Drive Configuration
XTAL1 : Input to the inverting oscillator amplifier.
XTAL2 : Output from the inverting oscillator amplifier.
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4
MX10C805X
IDLE MODE
ABSOLUTE MAXIMUM RATING*
The user's software can invoke the Idle Mode. When
the microcontroller is in this mode, power consumption
is reduced. The Special Function Registers and the
onboard RAM retain their values during Idle, but the pro-
cessor stops executing instructions. Idle Mode will be
exited if the chip is reset or if an enabled interrupt oc-
curs.
Ambient Temperature Under Bias
StorageTemperature
-40°C to +85°C
-65°C to +150°C
-0.5V to +6.5V
15mA
Voltage on Any Other Pin to VSS
IOL Per I/O Pin
Power Dissipation
1.5W
(Based on PACKAGE heat transfer limitations, not de-
vice consumption)
Table 2. Status of the External Pins during Idle and Power Down
Mode
Program Memory
Internal
ALE
1
PSEN
PORT0
Data
PORT1
Data
PORT2
Data
PORT3
Data
Idle
1
1
0
0
Idle
External
1
Float
Data
Data
Address
Data
Data
Power Down
Power Down
Internal
0
Data
Data
External
0
Float
Data
Data
Data
POWER DOWN MODE
To save even more power, a Power Down mode can be
invoked by software. If this mode, the oscillator is stopped
and the instruction that invoked Power Down is the last
instruction executed. The on-chip RAM and Special
Function Registers retain their values until the Power
Down mode is terminated.
To properly terminate Power Down, the reset or exter-
nal interrupt should not be executed before VCC is re-
stored to its normal operating level, and must be held
active long enough for the oscillator to restart and stabi-
lize (normally less than 10 ms).
With an external interrupt, INT0 and INT1 must be en-
abled and configured as level-sensitive. Holding the pin
low restarts the oscillator but bringing the pin back high
completes the exit. Once the interrupt is serviced, the
next instruction to be executed after RETI will be the
one following the instruction that put the device into Power
Down.
On the MX10C805X either a hardware reset or an ex-
ternal interrupt can cause an exit from Power Down. Re-
set redefines all the SFRs but does not change the on-
chip RAM. An external interrupt allows both the SFRs
and on-chip RAM to retain their values.
OPERATING CONDITIONS
Symbol
TA
Description
Min
Max
Units
Ambient Temperature Under Bias
Commerical
0
+70
+85
5.5
40
°C
Industrial
-40
4.5
3.5
°C
VCC
V
fOSC
Oscillator Frequency
MHz
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5
MX10C805X
DC CHARACTERISTICS (Over Operating Conditions)
All parameter values apply to all devices unless otherwise indicated.
Symbol Parameter
Min
Typ
Max
Unit
Test Conditions
(Note 4)
VIL
Input Low Voltage
-0.5
0.2 VCC-0.1
0.2 VCC-0.3
VCC+0.5
V
V
V
VIL1
VIH
Input Low Voltage EA
Input High Voltage
0
0.2 VCC+0.9
(Except XTAL1, RST)
Input High Voltage
VIH1
VOL
0.7 VCC
VCC+0.5
V
V
(XTAL1, RST)
Output Low Voltage (Note 5)
(Ports 1, 2, and 3)
0.4
0.4
IOL=1.6 mA (Note 1)
VOL1
VOH
Output Low Voltage (Note 5)
(Port 0, ALE, PSEN)
Output High Voltage
(Port 1, 2 and 3, ALE, PSEN)
V
V
IOL=3.2 mA (Note 1)
IOH=-10 uA
IOH=-30 uA
IOH=-60uA
0.9 VDD
0.75 VDD
0.5 VDD
0.9 VDD
0.75 VDD
0.5 VDD
V
V
VOH1
IIL
Output High Voltage
V
IOH=-80 uA
IOH=-300 uA
IOH=-800 uA
VIN=0.4V
(Port 0 in External Bus Mode)
V
V
Logical 0 Input Current
(Ports 1, 2 and 3)
-50
uA
ILI
Input leakage Current (Port 0)
Logical 1 to 0 Transition Current
(Ports 1, 2 and 3)
±10
uA
uA
VIN=VIL or VIH
VIN=2V
ITL
-750
Industrial
PRST
CIO
RST Pulldown Resistor
Pin Capacitance
15
150
K ohm
pF
10
2
@1 MHz, 25°C
ICC
Power Supply Current:
Active Mode at 40 MHz
Idle Mode at 40 MHz(70°C 5.5V)
Power Down Mode
(Note 3)
60
28
10
mA
mA
uA
NOTES:
1. Capacitive loading on Ports 0 and 2 may cause noise pulses above 0.4V to be superimposed on the VOLs of ALE and Ports 1, 2 and 3. The
noise is due to external bus capacitance discharging into the Port 0 and Port 2 pins when these pins change from 1 to 0. In applications
where capacitive loading exceeds 100 pF, the noise pulses on these signlas may exceed 0.8V. It may be desirable to qualify ALE or other
signals with a Schmitt Triggers, or CMOS-level input logic.
2. Capacitive loading on Ports 0 and 2 cause the VOH on ALE and PSEN to drop below the 0.9 VCC specification when the address lines are
stabilizing.
3. Minimum VCC for Power Down is 2V.
4. Typicals are based on a limited number of samples and are not guaranteed. The values listed are room temperature and 5V.
5. Under steady state (non-transient) conditions, IOL must be externally limited as follows:
Maximum IOL per port pin:
Maximum IOL per 8-bit port:
10mA
Port 0:
Ports 1, 2 and 3:
Maximum total IOL for all output pins:
26mA
15mA
71mA
If IOL exceeds the test condition, VOL may exceed the related specification. Pins are not guaranteed to sink current greater than the listed test
conditions.
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6
MX10C805X
60.0
50.0
40.0
30.0
20.0
10.0
0.0
MAX
ACTIVE MODE
TYP
ICC (mA)
ACTIVE MODE
MAX
IDLE MODE
MAX
IDLE MODE
0.0
8.0
24.0
4.0
12.0 16.0
20.0
28.0 32.0
36.0
Freq at XTAL1 (MHz)
NOTE:
ICC Max at 33 MHz is at 5V is + 10% VCC, while
ICC Max at 24 MHz and below is at 5V + 20% VCC
Figure 5. 80C52/54/58 ICC vs Frequwncy
VCC
VCC
ICC
ICC
VCC
VCC
VCC
VCC
P0
EA
P0
EA
VCC
RST
MX10C805X
RST
MX10C805X
(NC)
CLOCK
SIGNAL
XTAL2
XTAL1
VSS
(NC)
XTAL2
XTAL1
VSS
CLOCK
SIGNAL
All other pins disconnected
TCLCH = TCHCL = 5ns
All other pins disconnected
TCLCH = TCHCL = 5ns
Figure 7. ICC Test Condition Idle Mode
Figure 6. ICC Test Condition, Active Mode
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7
MX10C805X
VCC
ICC
VCC
VCC
P0
EA
RST
MX10C805X
(NC)
XTAL2
XTAL1
VSS
All other pins disconnected
Figure 8. ICC Test Condition, Power Down Mode
VCC=2.0V to 6.0V
VCC-0.5
0.7 VCC
0.45V
0.2 VCC-0.1
TCHCX
TCLCH
TCHCL
TCLCX
TCLCL
Figure 9. Clock Signal Waveform for ICC Tests in Active and Idle Modes.
TCLCH = TCHCL = 5 ns
EXPLANATION OF THE AC SYMBOLS
Q: Output Data
R: RD signal
T:Time
Each timing symbol has 5 characters. The first charac-
ter is always a "T" (stands for time). The other charac-
ters, depending on their positions, stand for the name of
a signal or the logical status of that signal. The following
is a list of all the characters and what they stand for.
A: Address
V:Valid
W:WR signal
X: No longer a valid logic level
Z: Float
C: Clock
D: Input Data
For example,
H: Logic level HIGH
TAVLL = Time from Address Valid to ALE Low
TLLPL = Time from ALE Low to PSEN Low
L: Logic level LOW, or ALE
P: PSEN
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8
MX10C805X
AC CHARACTERISTICS
(Over Operating Conditions, Load Capacitance for Port 0, ALE/PROG and PSEN = 100 pF, Load Capacitance for All
Other Outputs = 80 pF)
tCK min. = 1/f max. (maximum operating frequency); tCK=clock period
SYMBOL PARAMETER
33 MHz
MAX
UNIT
MIN
EXTERNAL PROGRAM MEMORY
TLHLL
TAVLL
TLLAX
TLLIV
TLLPL
TPLPH
TPLIV
TPXIX
TPXIZ
TAVIV
TPLAZ
ALE PULSE DURATION
20
17
10
-
-
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
ADDRESS SET-UP TIME TO ALE
-
ADDRESS HOLD TIME AFTER ALE
-
TIME FROM ALE TO VALID INSTRUCTION INPUT
TIME FROM ALE TO CONTROL PULSE PSEN
CONTROL PULSE DURATION PSEN
55
-
17
70
-
-
TIME FROM PSEN TO VALID INSTRUCTION INPUT
INPUT INSTRUCTION HOLD TIME AFTER PSEN
INPUT INSTRUCTION FLOAT DELAY AFTER PSEN
ADDRESS TO VALID INSTRUCTION INPUT
TO PSEN ADDRESS FLOAT TIME
12
-
0
-
20
95
10
-
-
EXTERNAL DATA MEMORY
TLHLL
ALE PULSE DURATION
20
17
10
80
80
-
-
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
NS
TAVLL
ADDRESS SET-UP TIME TO ALE
ADDRESS HOLD TIME AFTER ALE
RD PULSE DURATION
-
TLLAX
TRLRH
TWLWH
TRLDV
TRHDX
TRHDZ
TLLDV
TAVDV
TLLWL
TAVWL
TWHLH
TQVWX
TQVWH
TWHQX
TRLAZ
-
-
WR PULSE DURATION
-
RD TO VALID DATA INPUT
60
DATA HOLD TIME AFTER RD
0
-
DATA FLOAT DELAY AFTER RD
TIME FROM ALE TO VALID DATA INPUT
ADDRESS TO VALID INPUT
32
-
-
90
105
140
-
-
TIME FROM ALE TO RD OR WR
TIME FROM ADDRESS TO RD OR WR
TIME FROM RD OR WR HIGH TO ALE HIGH
DATA VALID TO WR TRANSITION
DATA SET-UP TIME BEFORE WR
DATA HOLD TIME AFTER WR
ADDRESS FLOAT DELAY AFTER RD
40
45
10
10
125
10
-
55
-
-
-
0
NOTE:
1. The maximun operating frequency is limited to 40 MHz and the minimum to 3.5 MHz.
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9
MX10C805X
External clock drive XTAL
SYMBOL
PARAMETER
VARIABLE CLOCK
UNIT
MIN
1.2
63
20
20
-
MAX
fCLK
clock frequency
clock period
16 (tbf.)
833
MHz
ns
tCLCL
tCHCX
tCLCX
tCLCH
tCHCL
tCY
HIGH time
tCK-tCLCX
tCK-tCHCX
20
ns
LOW time
ns
RISE time
ns
FALL time
-
20
ns
cycle time (tCY = 12 tCK)
0.75
10
ms
SERIAL PORT CHARACTERISTICS
Serial Port Timing : Shift Register Mode
VDD = 5V±10%;VSS = 0V;Tamb=0°C; Load Capacitance = 80 pF
SYMBOL
PARAMETER
33 MHz OSCILLATOR
UNIT
MIN
360
167
5
MAX
tXLXL
Serial Port clock cycle time
-
ns
ns
ns
ns
ns
tQVXH
tXHQX
tXHDX
tXHDV
Output data setup to clock rising edge
Output data hold after clock rising edge
Input data hold after clock rising edge
Clock rising edge to input data valid
-
-
0
-
-
167
EXTERNAL CLOCK DRIVE WAVEFORM
VCC-0.5
0.7 VCC
0.2 VCC-0.1
0.45V
TCHCX
TCLCH
TCLCX
TCHCL
TCLCL
AC TESTING INPUT, OUTPUT WAVEFORMS
FLOAT WAVEFORM
VCC-0.5
VOH-0.1V
VOL+0.1V
VLOAD+0.1V
VLOAD
0.2 VCC+0.9
0.2 VCC-0.1
TIMING REFERENCE
POINTS
0.45V
VLOAD-0.1V
AC Inputs during testing are driven at VCC-0.5V for a
Logic "1" 0.45V for a Logic "0". Timing measurements
are made at VIH min for a Logic "1" and VIL max for a
Logic "0".
For timing purposes a port pin is no longer floating when a 100 mV
change from load voltage occurs, and begins to float when a 100mV
change form the loaded VOH/VOL level occurs. IOL/IOH = + 20 mA
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MX10C805X
EXTERNAL PROGRAM MEMORY READ CYCLE
TLHLL
ALE
TLLPL
TPLIP
TLHIV
TAVLL
TPLIV
PSEN
TPXIZ
TPLAZ
TPXIX
TLLAX
PORT 0
PORT 2
A0 - A7
INSTR IN
A0 - A7
TAVIV
A8 - A15
A8 - A15
EXTERNAL DATA MEMORY READ CYCLE
ALE
TLHLL
TWHLH
TLLDL
PSEN
TLLWL
TRLRH
RD
TRHDZ
TRHDX
TAVLL
TLLAX
TRLDV
TRLIZ
A0-A7 FROM
PCL
PORT 0
PORT 2
INSTR. IN
A0-A7 FROM RI OR DPL
DATA IN
TAVWL
TAVDV
A8-A15 FROM PCH
P2.0-P2.7 OR A8-A15 FROM DPH
P/N:PM0591
REV. 0.3, APR. 09, 1999
11
MX10C805X
EXTERNAL DATA MEMORY WRITE CYCLE
ALE
TLHLL
TWHLH
PSEN
TLLWL
TWLWH
WR
TWHQX
TAVLL
TQVWX
TLLAX
TQVWH
A0-A7 FROM
PCL
PORT 0
PORT 2
INSTR. IN
DATA OUT
A0-A7 FROM RI OR DPL
TAVWL
A8-A15 FROM PCH
P2.0-P2.7 OR A8-A15 FROM DPH
SHIFT REGISTER MODE TIMING WAVEFORMS
2
5
8
1
4
7
0
3
6
INSTRUCTION
ALE
TXLXL
CLOCK
TXHQX
TQVXH
0
OUTPUT DATA
6
3
1
2
4
5
7
WRITE TO SBUF
TXHDV
TXHDX
INPUT DATA
CLEAR RI
VALID
VALID
VALID
VALID
VALID
VALID
VALID
VALID
P/N:PM0591
REV. 0.3, APR. 09, 1999
12
MX10C805X
REVISION HISTORY
REVISION
0.3
DESCRIPTION
Modify Block Diagram
PAGE
P2
DATE
APR/09/1999
P/N:PM0591
REV. 0.3, APR. 09, 1999
13
MX10C805X
MACRONIX INTERNATIONAL CO., LTD.
HEADQUARTERS:
TEL:+886-3-578-6688
FAX:+886-3-563-2888
EUROPE OFFICE:
TEL:+32-2-456-8020
FAX:+32-2-456-8021
JAPAN OFFICE:
TEL:+81-44-246-9100
FAX:+81-44-246-9105
SINGAPORE OFFICE:
TEL:+65-348-8385
FAX:+65-348-8096
TAIPEI OFFICE:
TEL:+886-2-2509-3300
FAX:+886-2-2509-2200
MACRONIX AMERICA, INC.
TEL:+1-408-453-8088
FAX:+1-408-453-8488
CHICAGO OFFICE:
TEL:+1-847-963-1900
FAX:+1-847-963-1909
http : //www.macronix.com
MACRONIX INTERNATIONAL CO., LTD. reserves the right to change product and specifications without notice.
14
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