8xC251TB, 8xC251TQ,
Hardware Description
Addendum to the 8xC251SA, 8xC251SB,
8xC251SP, 8xC251SQ, User’s Manual
Release Date: December 2003
Order Number: 273138-002
The 8xC251Tx may contain design defects or errors known as errata which may cause
the product to deviate from published specifications. Such errata are not covered by
Intel's warranty. Current characterized errata are available on request.
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8xC251Tx Hardware Description
REVISION HISTORY:
Date
Revision
Description
November 1997
December 2003
001
002
Initial release of this document
Removed references to 8XC251TA, 8XC251TP
273138-002
December 2003
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8xC251Tx Hardware Description
iv
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273138-002
8xC251Tx Hardware Description
8xC251TB, 8xC251TQ Hardware Description
Addendum to the 8xC251SA, 8xC251SB, 8xC251SP, 8xC251SQ, User’s Manual
1.0 INTRODUCTION TO THE 8xC251Tx
1.1
Comparing the 8xC251Tx and 8xC251Sx ..................................................................... 1
2.0 SIGNAL SUMMARY
3.0 THE SECOND SERIAL I/O PORT
3.1
3.2
3.2.1
3.2.2
3.2.3
3.2.4
3.2.5
3.2.6
3.2.7
3.2.8
Overview........................................................................................................................ 7
Special Function Register Definitions............................................................................ 9
SCON1 .................................................................................................................... 9
SBUF1 ................................................................................................................... 10
SADDR1 ................................................................................................................ 10
SADEN1 ................................................................................................................ 10
BGCON .................................................................................................................. 10
IE1 ......................................................................................................................... 11
IPH1 ....................................................................................................................... 11
IPL1 ....................................................................................................................... 11
4.0 EXTENDED DATA FLOAT TIMING
4.1
Summary of the Extended Data Float Timing Changes .............................................. 12
8xC251Tx Block Diagram .....................................................................................1
FIGURES
Figure 1
TABLES
Table 1.
Table 2.
Table 3.
Table 4.
Table 5.
Table 6.
Table 7.
Table 8.
Table 9.
Table 10.
Table 11.
Table 12.
Table 13.
8xC251Tx Signal Summary ................................................................................. 2
8xC251Tx Signal Descriptions............................................................................. 3
Special Function Register (SFR) Map.................................................................. 6
Second Serial I/O Port Signals ............................................................................ 7
Second Serial I/O Port Special Function Registers.............................................. 8
SCON1 Special Function Register Definitions..................................................... 9
BGCON Special Function Register Definitions .................................................. 10
IE1 Special Function Register Definitions.......................................................... 11
IPH1 Special Function Register Definitions ....................................................... 11
IPL1 Special Function Register Definitions........................................................ 11
Interrupt Priority of Second Serial I/O Port......................................................... 11
UCONFIG1 bit definitions for the 8xC251Tx...................................................... 12
Summary of the EDF# and WSB#[1:0] Configuration Options........................... 13
273138-002
December 2003
v
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8xC251Tx Hardware Description
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273138-002
8xC251Tx Hardware Description
1.0 INTRODUCTION TO THE 8xC251Tx
This Hardware Description describes the 8xC251TB, 8xC251TQ (referred to collectively as the 8xC251Tx)
embedded microcontroller, which is the newest member of the MCS® 251 microcontroller family. The
8xC251Tx is pin and code compatible with the 8xC251Sx but is enhanced with the addition of new features.
This document addresses the differences between the two members of the MCS 251 microcontroller family.
For a detailed description of the MCS 251 microcontroller core and standard peripherals shared by both the
8xC251Sx and 8xC251Tx, please refer to the 8xC251SA, 8xC251SB, 8xC251SP, 8xC251SQ Embedded
Microcontroller User’s Manual (272795).
1.1 Comparing the 8xC251Tx and 8xC251Sx
The differences between the 8xC251Tx and the 8xC251Sx are briefly described here.
•
•
The maximum operating frequency of the 8xC251Tx is 24 Mhz compared to 16 MHz for the 8xC251Sx.
The 8xC251Tx has two serial I/O ports while the 8xC251Sx has one. The pins for the second serial I/O
port are multiplexed with other functional pins.
•
•
The 8xC251Tx has a new configuration option (Extended Data Float timing) to allow interfacing with
slower memories. This feature is supported by a bit in the configuration byte, UCONFIG1. The corre-
sponding bit in the 8xC251Sx has a different function.
The 8xC251Tx is offered in with factory programmed ROM while the 8xC251Sx is also offered with
OTPROM/EPROM.
P0 (A7-
0/D7-0)
RESET
Clock and
Reset Unit
PORT
0-3
EPROM/
ROM
RAM
P2 (A15-8)
XTAL2
Interrupt
Handler Unit
8
24
16
Memory Data
Memory Address
16
Peripherals
3 Timers
Serial I/O
WDT
BUS INTERFACE UNIT
8
P3
XTAL1
16
INSTR
24
PC
CPU
Instruction
Sequencer
SRC1, SRC2
PSEN
PCA
P1
Register
File
Program
Counter
ALU
2nd Serial
I/O
DST
ALE
VCC
VSS
Figure 1. 8xC251Tx Block Diagram
1
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8xC251Tx Hardware Description
2.0 SIGNAL SUMMARY
Table 1. 8xC251Tx Signal Summary
Address & Data
Name PLCC
Input/Output
PLCC
DIP
39
38
37
36
35
34
33
32
21
22
23
24
25
26
27
28
17
8
Name
DIP
1
AD0/P0.0
AD1/P0.1
AD2/P0.2
AD3/P0.3
AD4/P0.4
AD5/P0.5
AD6/P0.6
AD7/P0.7
A8/P2.0
43
42
41
40
39
38
37
36
24
25
26
27
28
29
30
31
19
9
P1.0/T2
2
3
P1.1/T2EX
2
P1.2/EC/RXD1
P1.3/CEX0/TXD1
P1.4/CEX1
4
3
5
4
6
5
P1.5/CEX2
7
6
P1.6/CEX3/WAIT#
P1.7/CEX4/A17/WCLK
P3.0/RXD
8
7
9
8
11
13
16
17
10
11
14
15
A9/P2.1
P3.1/TXD
A10/P2.2
P3.4/T0
A11/P2.3
P3.51/T1
A12/P2.4
A13/P2.5
Power & Ground
Name PLCC
A14/P2.6
DIP
A15P2.7
VCC
44
12
40
P3.7/RD#/A16
P1.7/CEX4/A17/WCLK
VCC2
VSS
22
20
VSS1
VSS2
1
Processor Control
23,24
Name
PLCC
14
DIP
12
13
31
9
P3.2/INT0#
P3.3/INT1#
EA#
Bus Control & Status
15
Name
PLCC
18
DIP
16
17
30
29
35
P3.6/WR#
P3.7/RD#/A16
ALE
RST
10
19
XTAL1
21
18
19
33
XTAL2
20
PSEN#
32
NOTE: Pins in this font indicate functions associated with the second serial I/O port.
2
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8xC251Tx Hardware Description
Table 2. 8xC251Tx Signal Descriptions (Sheet 1 of 3)
Description
Signal
Name
Alternate
Function
Type
A17
O
Address Line 17. Output to memory as the 18th external address bit P1.7/CEX4/
(A17) in extended bus applications, depending on the values of bits
RD0 and RD1 in configuration byte UCONFIG0 (see Chapter 4,
"Device Configuration," of the 8xC251SA, 8xC251SB, 8xC251SP,
8xC251SQ Embedded Microcontroller User’s Manual (272795). See
also RD# and PSEN#.
WCLK
A16
O
O
Address Line 16. See RD#.
P3.7/RD#
P2.7:0
A15:8*
A7:0
Address Lines. Upper address lines for the external bus.
I/O
Address/Data Lines. Multiplexed lower address lines and data lines P0/7:0
for external bus.
ALE
O
Address Latch Enable. ALE signals the start of an external bus
cycle and indicates that valid address information is available on lines
A15:8 and A7:0. An external latch can use ALE to demultiplex the
address from the address/data bus.
CEX0
CEX1
CEX2
CEX3
CEX4
I/O
Programmable Counter Array (PCA) input/output pins. These are P1.3/TXD1
input signals for the PCA capture mode and output signals for the
PCA compare mode and PCA PWM mode.
P1.4
P1.5
P1.6/WAIT#
P1.7/A17/
WCLK
EA#
I
External Access. Direct program accesses to on-chip or off-chip
code memory. For EA# = 0, all program memory accesses are off
chip. For EA# = 1, all program memory accesses are on-chip if the
address is within the range of the on-chip program memory; other-
wise the access is off-chip. The value of EA# is latched at reset. For
devices without on-chip program memory, EA# must be strapped to
ground.
ECI
I
I
PCA External Clock Input. External clock input to the 16 bit PCA
P1.2/RXD1
P3.3:2
timer.
INT1:0#
External Interrupts 0 and 1. These inputs set IE1:0 in the TCON
register. If bits IT1:0 in the TCON register are set, units IE1:0 are set
by the falling edge on the INT1#/INT0#. If bits IT1:0 are clear, bits
IE1:0 are set by a low level on INTO1:0#.
P0.7:0
I/O
I/O
Port 0. This is an 8 bit, open drain, bidirectional I/O port.
AD7:0
P1.0
P1.1
P1.2
P1.3
P1.4
P1.5
P1.6
P1.7
Port 1. This is an 8 bit, bidirectional I/O port with internal pullups.
T2
T2EX
ECI/RXD1
CEX0/TXD1
CEX1
CEX2
CEX3/WAIT#
CEX4/A17/
WCLK
P2.7:0
I/O
Port 2. This is an 8 bit, bidirectional I/O port with internal pullups.
A15:8
* The descriptions of A15:8/P2.7:0 and AD7:0/P0.7:0 are for non page mode configuration. If configured in
page mode, Port 0 carries the lower address bits (A7:0) and Port 2 carries the upper address bits (A15:8)
and the data (D7:0)
3
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8xC251Tx Hardware Description
Table 2. 8xC251Tx Signal Descriptions (Sheet 2 of 3)
Signal
Name
Alternate
Function
Type
Description
P3.0
I/O
Port 3. This is an 8 bit, bidirectional I/O port with internal pullups
RXD
P3.1
P3.2
P3.3
P3.4
P3.5
P3.6
P3.7
TXD
INT0#
INT1#
T0
T1
WR#
RD#/A16
PSEN#
O
O
I
Program Store Enable. Read signal output to external memory.
Asserted for the address range specified by the configuration byte
UCONFIG0, bits RD1:0.
RD#
Read. Read signal output to external memory. Asserted for the
address range specified by the configuration byte UCONFIG0, bits
RD1:0.
P3.7/A16
RST
Reset. Reset input to the chip. Holding this pin high for 64 oscillator
periods while the oscillator is running resets the device. The port pins
are driven to their reset conditions when a voltage greater than VIH1
is applied, whether or not the oscillator is running. This signal has a
Schmitt trigger input. Connecting the RST pin to VCC through a
capacitor provides power-on reset. Asserting RST when the chip is in
idle mode or powerdown mode returns the chip to normal operation.
RXD
I/O
I/O
Receive Serial Data. RXD send and receives data in serial I/O mode P3.0
0 and receives data in serial I/O modes 1, 2 and 3.
RXD1
Receive Serial Data 1. RXD send and receives data in serial I/O
mode 0 and receives data in serial I/O modes 1, 2 and 3 for the sec-
ond serial I/O port.
P1.2/ECI
T1:0
T2
I
Timer 1:0 External Clock Inputs. When Timer 1:0 operates as a
P3.5:4
P1.0
counter, a falling edge on the T1:0 pin increments the count.
I/O
Timer 2 Clock Input/Output. For Timer 2 capture mode, this signal
is the external clock input. For the clock-out mode, it is the timer 2
clock input.
T2EX
I
Timer 2 External Input. In Timer 2 capture mode, a falling edge ini-
tiates a capture of Timer 2 registers. In auto-reload mode, a falling
edge causes the Timer 2 registers to be reloaded. In the up-down
counter mode, this signal determines the count direction:
P1.1
•
•
1=up
0 = down.
TXD
O
O
Transmit Serial Data. TXD outputs the shift clock in serial I/O mode P3.1
0 and transmits serial data in serial I/O modes 1, 2 and 3.
TXD1
Transmit Serial Data 1. TXD outputs the shift clock in serial I/O
mode 0 and transmits serial data in serial I/O modes 1, 2 and 3 for the
second serial I/O port.
P1.3/CEX0
VCC
PWR Supply Voltage. Connect this pin to the +5 supply voltage.
* The descriptions of A15:8/P2.7:0 and AD7:0/P0.7:0 are for non page mode configuration. If configured in
page mode, Port 0 carries the lower address bits (A7:0) and Port 2 carries the upper address bits (A15:8)
and the data (D7:0)
4
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8xC251Tx Hardware Description
Table 2. 8xC251Tx Signal Descriptions (Sheet 3 of 3)
Description
Signal
Name
Alternate
Function
Type
VCC2
PWR Secondary Supply Voltage 2. This supply voltage connection is pro-
vided to reduce power supply noise. Connection of this spin to the
+5V supply voltage is recommended. However, when using the ZX3
as a pin for pin replacement for the 8XC51FX, VCC2 can be uncon-
nected without loss of compatibility (Not available on DIP).
VSS
GND Circuit Ground. Connect this pin to ground.
VSS1
GND Secondary Ground. This ground is provided to reduce ground
bounce and improve power supply bypassing. Connection of this pin
to ground is recommended. However, when using the ZX3 as a pin
for pin replacement for the 8XC51FX, VSS1 can be unconnected with-
out loss of compatibility. (Not available in DIP).
VSS2
GND Secondary Ground 2. This ground is provided to reduce ground
bounce and improve power supply bypassing. Connection of this pin
to ground is recommended. However, when using the ZX3 as a pin
for pin replacement for the 8XC51FX, VSS1 can be unconnected with-
out loss of compatibility. (Not available in DIP).
WAIT#
WCLK
I
Real-time Wait State Input. The real-time WAIT# input is enabled by P1.6/CEX3
writing a logical "1" to the WCON.0 (RTWE) bit at S:A7H. During bus
cycles, the external memory system can signal ‘system ready’ to the
microprocessor in real time by controlling the WAIT# input signal
O
Wait Clock Output. The real-time Wait Clock output is driven by writ- P1.7/CEX4/
ing a logical "1" to the WCON.1 (RTWCE) bit at S:A7H. When
enabled, the WCLK output produces a square wave signal with a
period of one-half the oscillator frequency
A17
WR#
O
I
Write. Write signal output to external memory. Asserted for the mem- P3.6
ory address range specified by configuration byte UCONFIG0, bits
RD1:0.
XTAL1
Input to On-chip, Inverting Oscillator Amplifier. To use the internal
oscillator, a crystal/resonator circuit is connected to this pin. If an
external oscillator is used, its output is connected to this pin. XTAL1 is
the clock source for the internal timing
XTAL2
O
Output of the On-chip, Inverting Oscillator Amplifier. To use the
internal oscillator, a crystal/resonator circuit is connected to this pin. If
an external oscillator is used, leave XTAL2 unconnected.
* The descriptions of A15:8/P2.7:0 and AD7:0/P0.7:0 are for non page mode configuration. If configured in
page mode, Port 0 carries the lower address bits (A7:0) and Port 2 carries the upper address bits (A15:8)
and the data (D7:0)
5
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8xC251Tx Hardware Description
Table 3. Special Function Register (SFR) Map
CH00000 CCAP0Hx CCAP1Hx CCAP2Hx CCAP3Hx CCAP4Hx
F8
000
xxxxxxx
xxxxxxx
xxxxxxx
xxxxxxx
xxxxxxx
F0
B
00000000
E8
E0
CL
CCAP0L
CCAP1L
xxxxxxxx
CCAP2L
xxxxxxxx
CCAP3L
xxxxxxxx
CCAP4L
xxxxxxxx
00000000 xxxxxxxx
ACC
00000000
D8 CCON
CMOD
CCAPM0
CCAPM1
CCAPM2
CCAPM3
CCAPM4
x0000000
00x00000 00xxx000 x0000000 x0000000 x0000000 x0000000
D0 PSW
PSW1
00000000 00000000
C8 T2CON
T2MOD
RCAP2L
RCAP2H
TL2
TH2
00000000 xxxxxx00
00000000 00000000 00000000 00000000
C0
B8
IPL0
SADEN
SADEN1
SPH
00000000
x0000000 00000000 00000000
B0
A8
A0
98
90
88
80
P3
IE1
IP1L
IP1H
IPH0
11111111
xxxxxxx0
xxxxxxx0
xxxxxxx0
x0000000
IE0
SADDR
SADDR1
00000000 00000000 00000000
P2
11111111
WDTRST WCON
xxxxxxxx
xxxxxxxx
SCON
00000000 xxxxxxxx
SBUF
SCON1
00000000 xxxxxxxx
SBUF1
P1
11111111
TCON000 TMOD
00000
TL0
TL1
TH0
TH1
BGCON
0000xxxx
00000000 00000000 00000000 00000000 00000000
P0
11111111
SP DPL DPH DPXL
00000111 00000000 00000000 00000001
PCON
00xx0000
NOTE: Registers in this font are special functions registers that are associated with the second serial I/O
port.
6
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8xC251Tx Hardware Description
3.0 THE SECOND SERIAL I/O PORT
The second serial I/O port is functionally the same as the standard serial I/O port shared by both the
8xC251Tx and the 8xC251Sx. This section provides information about the new special function registers
(SFRs) associated with the second serial port. Detailed operation and programming of the serial I/O ports can
be obtained from Chapter 10 of the 8xC251SA, 8xC251SB, 8xC251SP, 8xC251SQ Embedded Microcon-
troller User’s Manual (272795). All the SFRs and control bits for the standard serial I/O port in both the
8xC251Sx and 8xC251Tx have an equivalent in the second serial I/O port. This should be kept in mind when
referencing Chapter 10 of the 8xC251SA, 8xC251SB, 8xC251SP, 8xC251SQ Embedded Microcontroller
User’s Manual (272795).
3.1 Overview
The second serial I/O port provides synchronous and asynchronous communications modes. It operates as a
universal asynchronous receiver and transmitter (UART) in three full-duplex modes (modes 1, 2 and 3).
Asynchronous transmission and reception can occur simultaneously and at different baud rates. The second
UART provides framing-bit error detection, multiprocessor communications and automatic address recog-
nition. The second serial port also operates in a single synchronous mode (mode 0).
The synchronous mode (mode 0) operates at a single baud rate. Mode 2 operates at two baud rates. Modes
1 and 3 operate over a wide range of frequencies, which are generated by Timer 1 and Timer 2.
The second serial I/O port signals are defined in Table 4 and the special function registers are described in
Table 5.
For the three asynchronous modes, the second serial I/O port transmits on the TXD1 pin and receives on the
RXD1 pin. For the synchronous mode (mode 0), the second serial I/O port outputs a clock signal on the TXD1
pin and sends and receives messages on the RXD1 pin. The SBUF1 register holds received bytes and bytes
to be transmitted. To send, software writes a byte to SBUF1; to receive, software reads SBUF1. The receive
shift register allows reception of a second byte before the first byte has been read from SBUF1. However, if
software has not read the first byte by the time the second byte is received, the second byte will overwrite the
first. The second serial I/O port sets interrupts bits TI1 and RI1 on transmission and reception, respectively.
These two share a single interrupt request and interrupt vector.
The serial port control 1 (SCON1) and the secondary serial port control (BGCON) registers configures and
controls the second serial I/O port.
Table 4. Second Serial I/O Port Signals
Function
Name
Multiplexed
With
Type
Description
TXD1
O
Transmit Serial Data. TXD1 outputs the shift clock in serial I/O mode P1.3/CEX0
0 and transmits serial data in serial I/O modes 1, 2 and 3 for the sec-
ond serial I/O port
RXD1
I/O
Receive Serial Data 1. RXD1 send and receives data in serial I/O
mode 0 and receives data in serial I/O modes 1, 2 and 3 for the sec-
ond serial I/O port
P1.2/ECI
7
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8xC251Tx Hardware Description
Table 5. Second Serial I/O Port Special Function Registers
Mnemonic
Description
Address
9BH
SBUF1
Serial Buffer 1. Two separate registers comprise the SBUF1 register. Writ-
ing to SBUF1 loads the transmit buffer; reading SBUF1 access the receive
buffer
SCON1
Serial Port Control 1. Selects the second serial I/O port operating mode.
SCON1 enables and disables the receiver, framing bit error detection, multi-
processor communication, automatic address recognition and the serial port
interrupt bits.
9AH
AAH
SADDR1
SADEN1
Serial Address 1. Defines the individual address for a slave device
Serial Address Enable 1. Specifies the mask byte that is used to define the BAH
given address for a slave device
BGCON
Secondary Serial Port Control. Contains controls to the second serial port 8FH
including the double baud rate bit, read/write access to the SCON1.7 bit as
well as bits to control Timer1 or 2 overflow as the baud rate generator for
reception and transmission
IE1
Interrupt Enable Register 1. Contains the second serial I/O port interrupt
enable bit
B1H
IPL0
Interrupt Priority Low Control Register 1. IPL0, together with IPH0,
assigns the second serial I/O port interrupt level from 0 (lowest) to 3 (high-
est)
B2H
IPH0
Interrupt Priority High Control Register 1. IPH0, together with IPL0,
assigns the second serial I/O port interrupt level from 0 (lowest) to 3 (high-
est)
B3H
The second serial I/O port interrupt is enabled by setting the ES1 bit in the IE1 register. The priority of the
second serial I/O port’s interrupt is set to one of four levels by programming the IPL1.0 and IPH1.0 bits in the
IPL1 and IPH1 registers, respectively. The second serial I/O port is last in the interrupt polling sequence (see
Chapter 6 of the 8xC251SA, 8xC251SB, 8xC251SP, 8xC251SQ Embedded Microcontroller User’s Manual
(272795) for details of the interrupt system). The second serial I/O port's Interrupt Service Routine Vector
Address is FF:0043H.
When the second serial I/O port is used, the alternate functions of RXD1 and TXD1 can no longer be used.
Specifically, the PCA can no longer be clocked by an external clock input since ECI now functions as RXD1.
The PCA can, however, be clocked by one of three other methods. They consist of two fixed frequencies
(fixed in relation to the Oscillator frequency); FOSC/12 and FOSC/4 and Timer 0 overflow.
The other consequence of using the second serial I/O port is Module 0 of the PCA can now be used only as a
16 bit Software Timer. The 16-bit Capture, High Speed Output and Pulse Width Modulation modes are no
longer available to Module 0 as these modes require the use of CEX0 (which, when the second serial I/O port
is in operation, functions as TXD1).
8
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8xC251Tx Hardware Description
3.2 Special Function Register Definitions
The following describes the special function registers associated with the second serial I/O port and their bit
definitions.
3.2.1 SCON1
Address: 9AH
Reset Value: 0000 0000B
Table 6. SCON1 Special Function Register Definitions
Bit
Bit Number
Function
Mnemonic
7
FE1SM0
Framing Error Bit 1:
To Select this function, set the SMOD0 bit in the BGCON register. Set by hard-
ware to indicate an invalid stop bit. Cleared by software, not by valid frames
Second Serial I/O Port Mode Bit 0:
To select this function, clear the SMOD0 bit in the BGCON register. Software
writes to bit SM0 and SM1 to select the second serial I/O port operating
mode. Refer to SM1 bit for mode selections
6
SM1
Second Serial I/O Port Mode Bit 1:
Software write to bit SM0 and SM1 (above) to select the serial port operating
mode.
SM0
SM1
Mode
Description
Baud Rate
0
0
1
1
0
1
0
1
0
1
2
3
Shift Register
8 bit UART
9 bit UART
9 bit UART
Fosc/12
variable
Fosc/32* or Fosc/64*
variable
* Select by programming the SMOD0 bit in the BGCON register
5
SM2
Second Serial I/O Port Mode Bit 2:
Software writes to SM2 enable and disable the multiprocessor communica-
tion and automatic address recognition features. This allows the second
serial I/O port to differentiate between data and command frames and to rec-
ognize slave and broadcast addresses
4
3
REN1
TB8
Receive Enable Bit 1:
To enable reception, set this bit. To enable transmission, clear this bit
Transmit Bit 8:
In modes 2 and 3, software writes the ninth data bit to be transmitted to TB8.
Not used in modes 0 and 1
2
RB8
Receive Bit 8:
Mode 0: not used
Mode 1 (SM2 clear): Set or cleared by hardware to reflect the stop bit
received
Modes 2 and 3 (SM2 set): Set or cleared by hardware to reflect the ninth
data bit received
1
0
TI1
RI1
Second Serial I/O Port Transmit Interrupt Flag Bit:
Set by transmitter after the last data bit is transmitted. Cleared by software
Second Serial I/O Port Receive Interrupt Flag Bit:
Set by the receiver after the last data bit of a frame has been received.
Cleared by software
9
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8xC251Tx Hardware Description
3.2.2 SBUF1
Address: 9BH
Reset Value: xxxx xxxxB
To send serial data, software writes a byte to SBUF1 and to receive serial data, software reads from SBUF1.
3.2.3 SADDR1
Address: AAH
Reset Value: 0000 0000B
Slave Individual Address Register1 (SADDR1) contains the device’s individual address for multiprocessor
communications.
3.2.4 SADEN1
Address: BAH
Reset Value: 0000 0000B
Mask Byte Register 1 (SADEN1) masks bits in the SADDR1 register to form the devices given address for
multiprocessor communications.
3.2.5 BGCON
Address: 8FH
Reset Value: 0000 xxxxB
Table 7. BGCON Special Function Register Definitions
Bit Mne-
Bit Number
Function
monic
7
SMOD1
Double Baud Rate Bit:
When set, doubles the baud rate for the second serial I/O port when timer 1
is used and mode 1, 2 or 3 is selected in the SCON1 register.
6
SMOD0
RCLK1
TCLK1
-
SCON1.7 Select:
When set, read/write accesses to SCON1.7 are to the FE1 bit. When
cleared, read/write accesses to SCON1.7 are to the SM0 bit.
5
Second Serial I/O Port Receive Clock Bit:
Selects timer 2 overflow pulses (RCLK1 = 1) or timer 1 overflow pulses
(RCLK1 = 0) as the baud rate generator for the serial port modes 1 and 3.
4
Second Serial I/O Port Transmit Clock Bit:
Selects timer 2 overflow pulses (TCLK = 1) or timer 1 overflow pulses
(TCLK1 = 0) as the baud rate generator for the serial port modes 1 and 3.
3 - 0
Reserved.
10
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8xC251Tx Hardware Description
3.2.6 IE1
Address: B1H
Reset Value: xxxx xxx0B
Table 8. IE1 Special Function Register Definitions
Bit Mne-
monic
Bit Number
Function
7 - 1
0
-
Reserved
ES1
Second serial I/O port Interrupt Enable:
Setting this bit enables the second serial I/O port interrupt
3.2.7 IPH1
Address: B3H
Reset Value: xxxx xxx0B
Table 9. IPH1 Special Function Register Definitions
Function
Bit Mne-
monic
Bit Number
7 - 1
0
-
Reserved
IPH1.0
Second serial I/O port Interrupt Priority High Bit
3.2.8 IPL1
Address: B2H
Reset Value: xxxx xxx0B
Table 10. IPL1 Special Function Register Definitions
Bit Mne-
Bit Number
monic
Function
7 - 1
0
-
Reserved
Second serial I/O port Interrupt Priority Low Bit
IPL1.0
Interrupt priority of the second serial I/O port can be programmed to one of four levels depending on the
IPH1.0 and IPL1.0 bits.
Table 11. Interrupt Priority of Second Serial I/O Port
IPH1.0
IPL1.0
Priority Level
0
0
1
1
0
1
0
1
0 (Lowest Priority)
1
2
3 (Highest Priority)
11
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8xC251Tx Hardware Description
4.0 EXTENDED DATA FLOAT TIMING
The Extended Data Float Timing feature seeks to provide a solution to users that may be using slower
memory devices. Essentially, this feature extends the TRHDZ1 AC timing specification to accommodate
slower memory devices which require a longer period of dead time between a data and address bus cycles.
This feature is controlled by a bit in the Configuration byte (UCONFIG1). Bit 3 of UCONFIG1 in the 8xC251Tx
is defined as EDF#. In the 8xC251Sx, Bit 3 is defined as WSB. The implications of this change are discussed
below. Refer to Chapter 4 of the 8xC251SA, 8xC251SB, 8xC251SP, 8xC251SQ Embedded Microcontroller
User’s Manual (272795) for details of the device configuration for the 8xC251Sx. The information in that
chapter is valid for the 8xC251Tx with the exception of the change noted in this section.
4.1 Summary of the Extended Data Float Timing Changes
EDF# is used to determine whether the Extended Data Float Timing is enabled. Table 12 shows the definition
of UCONFIG1 for the 8xC251Tx. Only bit 3 has been redefined.
Table 12. UCONFIG1 bit definitions for the 8xC251Tx
Bit
Bit Number
Function
Mnemonic
7:5
-
Reserved for Internal or Future Use.
Set these bits when programming UCONFIG1
4
INTR
Interrupt Mode:
If this bit is set, interrupts push 4 bytes onto the stack (the 3 bytes of the PC
and PSW1). If this bit is clear, interrupts push the 2 lower bytes of the PC
onto the stack.
3
EDF#
Extended Data Float Timings:
When cleared, the extended data float timings are enabled. When set,
8xC251Sx compatible AC timings are enabled
2:1
WSB1:0#
External Wait State B (Region 01:):
WSB1#
WSB2#
0
0
1
1
0
1
0
1
Inserts 3 wait states for region 01:
Inserts 2 wait states for region 01:
Inserts 1 wait state for region 01:
Zero wait states for region 01:
0
EMAP
EPROM Map:
For devices with 16 Kbytes of on-chip code memory, clear this bit to map the
upper half of the on-chip code memory to region 00: (data memory). Maps
FF:2000H-FF:3FFFH to 00:E000H-00:FFFFH. If this bit is set, mapping does
not occur and the addresses in the range 00:E000H-00:FFFFH access
external RAM.
Refer to the 8xC251SA, 8xC251SB, 8xC251SP, 8xC251SQ Embedded Microcontroller User’s Manual
(272795) for the AC timings specifications.
12
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8xC251Tx Hardware Description
Table 13 shows the effect of programming EDF# and WSB#[1:0] on the extended data float timing feature as
well as the insertion of wait states for region 01:. It should be noted that enabling the extended data float
timing allows region 01: to have 1 or 3 wait states inserted (depending on WSB#[1:0]) but not 0 or 2 wait
states.
Table 13. Summary of the EDF# and WSB#[1:0] Configuration Options
Extended Data Float
EDF#
WSB#[1:0]
Wait State
Timings
1
1
1
1
0
0
0
0
11
10
01
00
11
10
01
00
0
1
2
3
1
1
3
3
No
No
No
No
Yes
Yes
Yes
Yes
The external user configuration cycle (UCONF = 1 and EA# = 0) will be executed with the extended TRHDZ1
timing bus cycle.
13
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