ETC R8822

R8822
Datasheet
16-BIT RISC MICRO-CONTROLLER
RDC RISC DSP Communication
RDC Semiconductor Co., Ltd
http://www.rdc.com.tw
TEL: 886-3-666-2866
FAX: 886-3-563-1498
R8822 Datasheet
Final Version 1.7
May 19, 2005
1
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
CONTENTS
1. Features..............................................................................................5
2. Block Diagram....................................................................................6
3. Pin Description ..................................................................................7
3.1
Pin Placement................................................................................................................7
3.1.1
PQFP......................................................................................................................................... 7
3.1.2
LQFP......................................................................................................................................... 8
3.2
3.3
R8822 PQFP & LQFP Pin-Out Table .............................................................................9
Functional Description .................................................................................................10
3.4
R8822 I/O Characteristics of Each Pin.........................................................................16
4. Basic Application System Block ....................................................19
5. Read/Write Timing Diagram............................................................21
6. Crystal Characteristics....................................................................23
6.1
Fundamental Mode ......................................................................................................23
7. Execution Unit..................................................................................24
7.1
7.2
7.3
7.4
General Registers ........................................................................................................24
Segment Registers ......................................................................................................25
Instruction Pointer and Status Flags Registers ............................................................25
Address Generation .....................................................................................................27
8. Peripheral Register List ..................................................................28
9. Power-Save & Power-Down ............................................................30
10. Reset ..............................................................................................33
11. Bus Interface Unit .........................................................................35
11.1
2
Memory and I/O Interface..........................................................................................35
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
11.2
11.3
11.4
11.5
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Data Bus ................................................................................................................... 36
Wait States................................................................................................................ 36
Bus Hold ................................................................................................................... 37
Bus Width ................................................................................................................. 38
12. Chip Select Unit ............................................................................ 40
12.1
12.2
12.3
12.4
UCS_n ...................................................................................................................... 40
LCS_n....................................................................................................................... 41
MCSx_n .................................................................................................................... 42
PCSx_n..................................................................................................................... 45
13. Interrupt Controller Unit............................................................... 46
13.1
13.2
13.3
13.4
13.5
Master Mode and Slave Mode .................................................................................. 47
Interrupt Vectors, Types and Priorities ...................................................................... 48
Interrupt Requests .................................................................................................... 49
Interrupt Acknowledge .............................................................................................. 49
Programming Registers ............................................................................................ 50
14. DMA Unit........................................................................................ 68
14.1
14.2
14.3
DMA Operation ......................................................................................................... 68
External Requests..................................................................................................... 75
Serial Port/DMA Transfers ........................................................................................ 78
15. Timer Control Unit ........................................................................ 79
15.1
Timer/Counter Unit Output Mode .............................................................................. 84
16. Watchdog Timer............................................................................ 85
17. Asynchronous Serial Port ........................................................... 87
17.1
17.2
17.3
Serial Port Flow Control ............................................................................................ 87
17.1.1
DCE/DTE Protocol..................................................................................................................88
17.1.2
CTS/RTR Protocol..................................................................................................................88
DMA Transfers to/from Serial Ports........................................................................... 89
Asynchronous Modes ............................................................................................... 89
18. PIO Unit ......................................................................................... 95
R8822 Datasheet
Final Version 1.7
May 19, 2005
3
RDC®
18.1
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
PIO Multi-Function Pins.............................................................................................95
19. DRAM Controller ...........................................................................99
19.1
19.2
Programmable Read/Write Cycle Time .....................................................................99
Programmable Refresh Control...............................................................................100
20. DC Electrical Characteristics.....................................................102
20.1
20.2
20.3
Absolute Maximum Rating ......................................................................................102
Recommended DC Operating Conditions ...............................................................102
DC Electrical Characteristics...................................................................................102
21. AC Electrical Characteristics.....................................................103
22. Thermal Characteristics ............................................................. 116
23. Instruction Set OP-Code and Clock Cycles.............................. 117
24. R8822 Execution Timing ............................................................121
25. Package Information...................................................................122
25.1
25.2
PQFP ......................................................................................................................122
LQFP.......................................................................................................................123
26. Revision History..........................................................................124
4
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
1.16-Bit Micro-controller with 8-Bit or 16-Bit External Data Bus
1.
Features
z Five-stage pipeline
z RISC architecture
z Static & synthesizable design
z Bus interface
- Multiplexed address and data bus
z Supports 64Kx16, 128Kx16, 256Kx16 EDO or FP DRAM
with auto-refresh control
z Three independent 16-bit timers and one independent
programmable watchdog timer
z The Interrupt controller with seven maskable
- Supports a non-multiplexed address bus A[19:0]
external interrupts and one non-maskable external
- 8-bit or 16-bit external bus dynamic access
interrupt
- 1M-byte memory address space
z Two independent DMA channels
- 64K-byte I/O space
z Programmable chip-select logic for memory or I/O
z Software is compatible with the 80C186
microprocessor
z Supports two asynchronous serial channels with
bus cycle decoder
z Programmable wait-state generators
z With 8-bit or 16-bit boot ROM bus size
hardware handshaking signals.
z Supports CPU ID
z Supports 32 PIO pins
R8822 Datasheet
Final Version 1.7
May 19, 2005
5
RDC®
2.
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Block Diagram
INT2/INTA0_n
INT1/SELECT_n
CLKOUTA INT3/INTA1_n/IRQ
CLKOUTB INT6-INT4
X1
VCC
GND
X2
Clock and
Power
Management
INT0 NMI
Interrupt
Control Unit
TMROUT0 TMROUT1
TMRIN0
TMRIN1
Timer Control
Unit
DRQ0
DRQ1
DMA
Unit
RST_n
LCS_n/ONCE0_n/RAS0_n
UCS_n/ONCE1_n
MCS0_n
MCS1_n/UCAS_n
MCS2_n/LCAS_n
MCS3_n/RAS1_n
PCS5_n/A1
PCS6_n/A2
ARDY
SRDY
Chip
Select
Unit
DRAM
Control
Unit
Refresh
Control
Unit
Instruction
Queue (64bits)
Instruction
Decoder
Micro
ROM
PIO
Unit
Register
File
General,
Segment,
Eflag Register
EA / LA
Address
RTS0_n/RTR0_n
Asynchronous Serial
Port0
S2_n/BWSEL
S1_n~S0_n
DT/R_n
DEN_n
HOLD
HLDA
S6/CLKDIV2_n
UZI_n
A[19:0](MA[8:0])
AD[15:0]
6
PIO[31:0]
Control Signal
CTS0_n/ENRX0_n
TXD0
RXD0
RTS1_n/RTR1_n
Bus
Interface
Unit
ALU
(Special,
Logic,
Adder,
BSF)
Execution
Unit
Asynchronous Serial
Port1
CTS1_n/ENRX1_n
TXD1
RXD1
RD_n
WHB_n
WLB_n
WR_n
ALE
BHE_n/ADEN_n
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
3.
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Pin Description
3.1 Pin Placement
AD10
AD2
AD9
82
81
84
83
AD11
AD3
85
AD12
AD4
86
AD5
88
87
AD13
GND
91
89
AD6
92
90
AD14
VCC
93
AD15
AD7
96
94
S6/CLKDIV2_n/PIO29
97
95
TXD1/PIO27
UZI_n/PIO26
98
CTS0_n/ENRX0_n/PIO21
RXD1/PIO28
99
PQFP
100
3.1.1
RXD0/PIO23
1
80
AD1
TXD0/PIO22
2
79
AD8
RTS0_n/RTR0_n/PIO20
3
78
AD0
BHE_n/ADEN_n
4
77
DRQ0/INT5/PIO12
WR_n
RD_n
5
76
DRQ1/INT6/PIO13
6
75
TMRIN0/PIO11
ALE
7
74
TMROUT0/PIO10
ARDY
8
73
TMROUT1/PIO1
TMRIN1/PIO0
S2_n/BWSEL
9
72
S1_n
10
71
RST_n
S0_n
11
70
GND
GND
12
69
MCS3_n/RAS1_n/PIO25
X1
13
68
MCS2_n/LCAS_n/PIO24
X2
14
67
VCC
VCC
15
66
PCS0_n/PIO16
CLKOUTA
16
65
PCS1_n/PIO17
CLKOUTB
17
64
GND
R8822
GND
18
63
PCS2_n/CTS1_n/ENRX1_n/PIO18
A19/PIO9
19
62
PCS3_n/RTS1_n/RTR1_n/PIO19
A18/PIO8
20
61
VCC
VCC
21
60
PCS5_n/A1/PIO3
A17/MA8/PIO7
22
59
PCS6_n/A2/PIO2
LCS_n/ONCE0_n/RAS0_n
R8822 Datasheet
Final Version 1.7
May 19, 2005
42
43
44
45
46
47
48
49
50
WHB_n
WLB_n
HLDA
HOLD
SRDY/PIO6
NMI
DT/R_n/PIO4
DEN_n/PIO5
MCS0_n/PIO14
MCS1_n/UCAS_n/PIO15
41
51
40
30
A0
A9/MA4
GND
INT4/PIO30
39
INT3/INTA1_n/IRQ
52
38
53
29
VCC
28
A10
A1/MA0
A11/MA5
37
INT2/INTA0_n/PIO31
A2
54
36
INT1/SELECT_n
A12
35
55
27
A4
26
A3/MA1
A13/MA6
34
INT0
33
56
A6
25
A5/MA2
UCS_n/ONCE1_n
A14
32
57
31
58
24
A8
23
A7/MA3
A16
A15/MA7
7
8
47
48
49
50
A13/MA6
A12
40
CLKOUTB
A14
39
CLKOUTA
A15/MA7
38
46
37
X2
VCC
45
36
X1
A16
35
GND
A17/MA8/PIO7
34
S0_n
44
33
S1_n
VCC
32
43
31
ARDY
S2_n/BWSEL
A18/PIO8
30
ALE
42
29
RD_n
41
28
WR_n
GND
27
A19/PIO9
26
BHE_n/ADEN_n
INT1/SELECT_n
INT2/INTA0_n/PIO31
INT3/INTA1_n/IRQ
76
79
77
INT0
80
RISC DSP Communication
78
LCS_n/ONCE0_n/RAS0_n
UCS_n/ONCE1_n
81
PCS5_n/A1/PIO3
PCS6_n/A2/PIO2
VCC
84
82
PCS3_n/RTS1_n/RTR1_n/PIO19
85
83
GND
PCS2_n/CTS1_n/ENRX1_n/PIO18
86
PCS1_n/PIO17
87
PCS0_n/PIO16
88
92
89
MCS3_n/RAS1_n/PIO25
93
MCS2_n/LCAS_n/PIO24
GND
94
VCC
RST_n
95
90
TMRIN1/PIO0
96
91
TMROUT0/PIO10
TMROUT1/PIO1
97
DRQ1/INT6/PIO13
TMRIN0/PIO11
98
DRQ0/INT5/PIO12
99
100
3.1.2
RTS0_n/RTR0_n/PIO20
RDC®
R8822
16-Bit RISC Micro-controller
LQFP
AD0
1
75
INT4/PIO30
AD8
2
74
MCS1_n/UCAS_n/PIO15
AD1
3
73
MCS0_n/PIO14
AD9
4
72
DEN_n/PIO5
AD2
5
71
DT/R_n/PIO4
AD10
6
70
NMI
VCC
15
61
AD14
16
60
A2
AD7
17
59
A3/MA1
AD15
18
58
A4
S6/CLKDIV2_n/PIO29
19
57
A5/MA2
UZI_n/PIO26
20
56
A6
TXD1/PIO27
21
55
A7/MA3
AD3
7
69
SRDY/PIO6
AD11
8
68
HOLD
AD4
9
67
HLDA
AD12
10
66
WLB_n
AD5
11
65
WHB_n
GND
12
64
GND
AD13
13
63
A0
AD6
14
62
A1/MA0
VCC
R8822
RXD1/PIO28
22
54
A8
CTS0_n/ENRX0_n/PIO21
23
53
A9/MA4
RXD0/PIO23
24
52
A10
TXD0/PIO22
25
51
A11/MA5
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
3.2 R8822 PQFP & LQFP Pin-Out Table
Pin Name
AD0
AD8
AD1
AD9
AD2
AD10
AD3
AD11
AD4
AD12
AD5
GND
AD13
AD6
VCC
AD14
AD7
AD15
S6/CLKDIV2_n/PIO29
UZI_n/PIO26
TXD1/PIO27
RXD1/PIO28
CTS0_n/ENRX0_n/PIO21
RXD0/PIO23
TXD0/PIO22
RTS0_n/RTR0_n/PIO20
BHE_n/ADEN_n
WR_n
RD_n
ALE
ARDY
S2_n/BWSEL
S1_n
S0_n
GND
X1
X2
VCC
CLKOUTA
CLKOUTB
GND
A19/PIO9
A18/PIO8
VCC
A17/MA8/PIO7
A16
A15/MA7
A14
A13/MA6
A12
R8822 Datasheet
Final Version 1.7
May 19, 2005
LQFP
Pin No.
PQFP
Pin No.
Pin Name
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
A11/MA5
A10
A9/MA4
A8
A7/MA3
A6
A5/MA2
A4
A3/MA1
A2
VCC
A1/MA0
A0
GND
WHB_n
WLB_n
HLDA
HOLD
SRDY/PI O6
NMI
DT/R_n/PIO4
DEN_n/PIO5
MCS0_n/PIO14
MCS1_n/UCAS_n/PIO15
INT4/PIO30
INT3/INTA1_n/IRQ
INT2/INTA0_n/PIO31
INT1/SELECT_n
INT0
UCS_n/ONCE1_n
LCS_n/ONCE0_n/RAS0_n
PCS6_n/A2/PIO2
PCS5_n/A1/PIO3
VCC
PCS3_n/RTS1_n/RTR1_n/PIO19
PCS2_n/CTS1_n/ENRX1_n/PIO18
GND
PCS1_n/PIO17
PCS0_n/PIO16
VCC
MCS2_n/LCAS_n/PIO24
MCS3_n/RAS1_n/PIO25
GND
RST_n
TMRIN1/PIO0
TMROUT1/PIO1
TMROUT0/PIO10
TMRIN0/PIO11
DRQ1/INT6/PIO13
DRQ0/INT5/PIO12
LQFP
Pin No.
PQFP
Pin No.
51
52
53
54
55
56
57
58
59
60
61
62
63
64
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
31
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
9
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
3.3 Functional Description
I = Input;
O = Output;
z CPU Core
PIN No.
(PQFP)
15, 21, 38,
61, 67, 92
12, 18, 41,
64, 70, 89
Symbol
Type
VCC
I
System power: +5 volt power supply.
GND
I
System ground.
71
RST_n
I
13
14
X1
X2
I
O
16
CLKOUTA
O
17
CLKOUTB
O
Description
Reset inputReset Input. When RST_n is asserted, the CPU
immediately terminates all operations, clears the internal
registers & logic, and transfers the address to the reset address
FFFF0h.
Input to the oscillator amplifier.
Output from the inverting oscillator amplifier.
Clock Output A. CLKOUTA operates at the crystal input
frequency (X1). CLKOUTA remains active during reset and bus
hold conditions.
Clock Output B. CLKOUTB operates at the crystal input
frequency (X1). CLKOUTB remains active during reset and bus
hold conditions.
z Asynchronous Serial Port Interface
10
PIN No.
(PQFP)
Symbol
Type
1
RXD0/PIO23
I/O
2
TXD0/PIO22
O/I
3
RTS0_n/RTR0_n/PIO20
O/I
100
CTS0_n/ENRX0_n/PIO21
I/O
98
TXD1/PIO27
O/I
99
RXD1/PIO28
I/O
Description
Receive Data for Asynchronous Serial Port 0. This pin receives
asynchronous serial data.
Transmit Data for Asynchronous Serial Port 0. This pin transmits
asynchronous serial data from the UART of the
micro-controllers.
Ready to Send/Ready to Receive Signals for Asynchronous
Serial Port 0. When the RTS0 bit in the AUXCON register is set
and the FC bit in the Serial Port 0 Control register is set, the
RTS0_n signal is enabled. Otherwise, when the RTS0 bit is
cleared and the FC bit is set, the RTR0_n signal is enabled.
Clear to Send/Enable Receiver Request Signals for
Asynchronous Serial Port 0. When the ENRX0 bit in the
AUXCON register is cleared and the FC bit in the Serial Port 0
Control register is set, the CTS0_n signal is enabled. Otherwise,
when the ENRX0 bit is set and the FC bit is set, the ENRX0_n
signal is enabled.
Transmit Data for Asynchronous Serial Port 1. This pin transmits
asynchronous serial data from the UART of the
micro-controllers.
Receive Data for Asynchronous Serial Port 1. This pin receives
asynchronous serial data.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
62
PCS3_n/RTS1_n/RTR1_n
/PIO19
O/I
63
PCS2_n/CTS1_n
/ENRX1_n/PIO18
I/O
Ready to Send/Ready to Receive Signals for Asynchronous
Serial Port 1. When the RTS1 bit in the AUXCON register is set
and FC bit in the Serial Port 1 Control register is set, the
RTS1_n signal is enabled. Otherwise, when the RTS1 bit is
cleared and the FC bit is set, the RTR1_n signal is enabled.
Clear to Send/Enable Receiver Request Signals for
Asynchronous Serial Port 1. When the ENRX1 bit in the
AUXCON register is cleared and the FC bit in the Serial Port 1
Control register is set, the CTS1_n signal is enabled. Otherwise,
when the ENRX1 bit is set and the FC bit is set, the ENRX1_n
signal is enabled.
z Bus Interface
PIN No.
Symbol
Type
4
BHE_n/ADEN_n
O/I
5
WR_n
O
6
RD_n
O
7
ALE
O
8
ARDY
I
R8822 Datasheet
Final Version 1.7
May 19, 2005
Description
Bus High Enable/Address Enable. During a memory access, the
BHE_n and (AD0 or A0) encodings indicate types of the bus
cycle. BHE_n is asserted during T1 and keeps the asserted to T3
and Tw. This pin is floating during bus holds and resets.
BHE_n and (AD0 or A0) Encodings
BHE_n
AD0 or A0
Types of Bus Cycle
0
0
Word transfer
0
1
High byte transfer (D[15:8])
1
0
Low byte transfer (D[7:0])
1
1
Refresh
The address portion of the AD bus can be enabled or disabled by
the DA bit in the LMCS and UMCS register during LCS or UCS
bus cycle accesses if BHE_n/ADEN_n is held high during
power-on resets. No external pull-up resistor is required because
BHE_n/ADEN_n is with a weak internal pull-up resistor. The AD
bus always drives both addresses and data during LCS or UCS
bus cycle accesses if the BHE_n/ADEN_n pin is with an external
pull-low resistor during resets.
Write Strobe. This pin indicates that the data on the bus is to be
written into a memory or an I/O device. WR_n is active during
T2, T3 and Tw of any write cycle, floating during a bus hold or
reset.
Read Strobe. It’s an active low signal indicates that the
micro-controller is performing a memory or I/O read cycle. RD_n
is floating during a bus hold or reset.
Address Latch Enable. Active high. This pin indicates that an
address output on the AD bus. The address is guaranteed to be
valid on the trailing edge of ALE. This pin is tri-stated during
ONCE mode and never floating during a bus hold or reset.
Asynchronous Ready. This pin indicates to the micro-controller
that the address memory space or I/O device will complete a
data transfer. The ARDY pin accepts a rising edge that is
asynchronous to CLKOUTA and is active high. The falling edge
of ARDY must be synchronized to CLKOUTA. Tie ARDY high, so
the micro-controller is always asserted in ready condition. If
ARDY is not used, tie this pin low to yield control to SRDY.
Both SRDY and ARDY should be tied to high if the system need
not assert wait-states by externality.
11
RDC®
9
10
11
S2_n/BWSEL
S1_n
S0_n
19
20
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
39
40
A19/PIO9
A18/PIO8
A17/MA8/PIO7
A16
A15/MA7
A14
A13/MA6
A12
A11/M15
A10
A9/MA4
A8
A7/MA3
A6
A5/MA2
A4
A3/MA1
A2
A1/MA0
A0
94, 91, 88,
86, 84, 82,
80, 78
95, 93, 90,
87, 85, 83,
81, 79
42
12
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
O/I
O
O
Address Bus. Non-multiplexed memory or I/O addresses. The A
bus is one half of a CLKOUTA period earlier than the AD bus.
These pins are high-impedance during bus holds or resets.
O/I
MA[8:0]: DRAM Address Interface. The MA bus is multiplexed
with A bus. When the DRAM is accessed, the bus performs row
or column address, otherwise the bus performs address bus.
AD[7:0]
I/O
AD[15:8]
WHB_n
Bus Cycle Status. These pins are encoded to indicate the bus
status. S2_n can be used as memory or I/O indicator. S1_n can
be used as DT/R_n indicator. These pins are floating during bus
holds and resets.
S2_n/BWSEL is to decide the boot ROM bus width when the
RST_n pin goes from low to high. If S2_n/BWSEL is with a
pull-low resistor (330 ohm), the boot ROM bus width is 8 bits.
Otherwise, the boot ROM bus width is 16 bits.
Bus Cycle Encoding Description
S2_n
S1_n
S0_n
Bus Cycle
0
0
0
Interrupt acknowledge
0
0
1
Read data from I/O
0
1
0
Write data to I/O
0
1
1
Halt
1
0
0
Instruction fetch
1
0
1
Read data from memory
1
1
0
Write data to memory
1
1
1
Passive
O
The Multiplexed Address and Data Bus for Memory or I/O
Accesses. The address is present during the t1 clock phase and
the data bus phase is in t2-t4 cycle.
The address phase of the AD bus cannot be disabled when the
BHE_n/ADEN_n pin is with an external pull-low resistor during
resets.
The AD bus is in high-impedance state during bus hold or reset
conditions. This bus can also be used to load system
configuration information (with pull-up or pull-low resistors) into
the RESCON register when the reset input goes from low to
high.
Write High Byte. This pin indicates that the high byte data
(AD[15:8]) on the bus is to be written to a memory or I/O device.
WHB_n is the logic OR of BHE_n and WR_n.
This pin is floating during resets or bus holds.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
43
WLB_n
O
44
HLDA
O
45
HOLD
I
46
SRDY/PIO6
I/O
48
DT/R_n/PIO4
O/I
49
DEN_n/PIO5
O/I
96
S6/CLKDIV2_n/PIO29
O/I
97
UZI_n/PIO26
O/I
R8822 Datasheet
Final Version 1.7
May 19, 2005
Write Low Byte. This pin indicates that the low byte data
(AD[7:0]) on the bus is to be written to a memory or I/O device.
WLB_n is the logic OR of WR_n and A0.
This pin is floating during resets or bus holds.
Bus Hold Acknowledge. Active high. The micro-controller will
issue an HLDA in response to a HOLD request by the external
bus master at the end of T4 or Ti. When the micro-controller is in
hold status (HLDA is high), AD[15:0], A[19:0], WR_n, RD_n,
DEN_n, S0_n–S2_n, S6, BHE_n, DT/R_n, WHB_n and WLB_n
are floating, and UCS_n, LCS_n, PCS6_n–PCS5_n,
MCS3_n–MCS0_n and PCS3_n–PCS0_n will be driven high.
After HOLD is detected as being low, the micro-controller will
lower HLDA.
Bus Hold Request. Active high. This pin indicates that another
bus master is requesting the local bus.
Synchronous Ready. This pin indicates to the micro-controller
that the address memory space or I/O device will complete a
data transfer. The SRDY pin accepts a falling edge that is
asynchronous to CLKOUTA and is active high. SRDY is
accomplished by elimination of the one-half clock period required
to internally synchronize ARDY. Tie SRDY high, so the
micro-controller is always asserted in ready condition. If SRDY is
not used, tie this pin low to yield control to ARDY.
Both SRDY and ARDY should be tied to high if the system need
not assert wait-states by externality.
Data Transmit or Receive. This pin indicates the direction of data
flow through an external data-bus transceiver. When DT/R_n is
asserted low, the micro-controller receives data. When DT/R_n is
asserted high, the micro-controller writes data to the data bus.
Data Enable. This pin is provided as a data bus transceiver
output enable. DEN_n is asserted during memory and I/O
accesses. DEN_n is driven high when DT/R_n changes states. It
is floating during bus hold or reset conditions.
Bus Cycle Status bit6/Clock Divided by 2. For S6 feature, this pin
is set to low to indicate a micro-controller-initiated bus cycle or
high to indicate a DMA-initiated bus cycle during T2, T3, Tw and
T4. For CLKDIV2_n feature, the internal clock of the
micro-controller is the external clock divided by 2 (CLKOUTA,
CLKOUTB=X1/2) if this pin is held low during power-on resets.
The pin is sampled on the rising edge of RST_n.
Upper Zero Indicate. This pin is the logical OR of the inverted
A[19:16]. It is asserted in the T1 and held throughout the cycle.
13
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
z Chip Select Unit Interface
PIN No.
Symbol
Type
50
51
68
69
MCS0_n/PIO14
MCS1_n/UCAS_n/PIO15
MCS2_n/LCAS_n/PIO24
MCS3_n/RAS1_n/PIO25
O/I
57
UCS_n/ONCE1_n
O/I
58
LCS_n/ONCE0_n/RAS0_n
O/I
59
60
PCS6_n/A2/PIO2
PCS5_n/A1/PIO3
O/I
62
63
65
66
PCS3_n/RTS1_n/RTR1_n/PIO19
PCS2_n/CTS1_n/ENRX1_n/PIO18
PCS1_n/PIO17
PCS0_n/PIO16
O/I
14
Description
Midrange Memory Chip Selects. For MCS_n feature,
these pins are active low when the MMCS register is
enabled to access a memory. The address ranges are
programmable. MCS3_n–MCS0_n are held high during
bus holds.
When bit 6 of the UMCS (A0h) register is set to 1, UCS_n
will be disabled and MCS3_n–MCS1_n will be activated
as bank1 control signals RAS1_n, LCAS_n and UCAS_n
of the DRAM controller. The DRAM memory is located
from 80000h to FFFFFh.
Upper Memory Chip Select/ONCE Mode Request 1. For
UCS_n feature, this pin is active low when the system
accesses the defined upper 512K-byte (80000h-FFFFFh)
memory block. UCS_n defaults to active from F0000h to
FFFFFh after power-on resets. UCS_n address range is
programmed by software.
For ONCE1_n feature, if ONCE0_n and ONCE1_n are
sampled low on the rising edge of RST_n, the
micro-controller enters ONCE mode. In ONCE mode, all
pins are high-impedance. This pin incorporates a weak
pull-up resistor.
Lower Memory Chip Select/ONCE Mode Request 0. For
LCS_n feature, this pin is active low when the
micro-controller accesses the defined lower 512K-byte
(00000h-7FFFFh) memory block. LCS_n address range
is programmed by software.
For ONCE0_n feature, please see UCS_n/ONCE1_n
description. This pin incorporates a weak pull-up resistor.
When bit 6 of the LMCS (A2h) register is set to 1, this pin
will be activated as RAS0_n which is the row address of
DRAM bank 0.
Peripheral Chip Selects/Latched Address bits. For PCS_n
feature, these pins are active low when the
micro-controller accesses the fifth or sixth region of the
peripheral memory (I/O or memory space). The base
address of PCS_n is programmable. These pins are
asserted with the AD address bus and not floating during
bus holds.
For latched address bit feature, these pins output the
latched addresses A2 and A1 when the EX bit in the
PCS_n and MCS_n auxiliary register is cleared. A2 and
A1 retain previous latched data during bus holds.
Peripheral Chip Selects. These pins are active low when
the micro-controller accesses the defined memory area of
the peripheral memory block (I/O or memory addresses).
For I/O accesses, the base address can be programmed
in the region from 00000h to 0FFFFh.
For memory address accesses, the base address can be
located in the 1M-byte memory address region. These
pins are asserted with the multiplexed AD address bus
and not floating during bus holds.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
z Interrupt Control Unit Interface
PIN No.
Symbol
Type
47
NMI
I
52
INT4/PIO30
I/O
53
INT3/INTA1_n/IRQ
I/O
54
INT2/INTA0_n/PIO31
I/O
55
INT1/SELECT_n
I/O
56
INT0
I/O
Description
Non-maskable Interrupt. NMI is the highest priority hardware
interrupt and is non-maskable. When this pin is asserted (the NMI
transition from low to high), the micro-controller always transfers the
address bus to the location specified by the non-maskable interrupt
vector in the micro-controller interrupt vector table. The NMI pin must
be asserted for at least one CLKOUTA period to guarantee that the
interrupt is recognized.
Maskable Interrupt Request 4. Active high. This pin indicates that an
interrupt request has occurred. The micro-controller will jump to the
INT4 address vector to execute the service routine if INT4 is
enabled. The interrupt input can be configured to be either edge- or
level-triggered. The requesting device must hold INT4 until the
request is acknowledged to guarantee interrupt recognition.
Maskable Interrupt Request 3/Interrupt Acknowledge 1/Slave
Interrupt Request.
For INT3 feature, except the differences in interrupt line and interrupt
address vector, the function of INT3 is the same as that of INT4.
For INTA1_n feature, in cascade mode or special fully-nested mode,
this pin corresponds to INT1.
For IRQ feature, when the micro-controller is as a slave device, this
pin issues an interrupt request to the master interrupt controller.
Maskable Interrupt Request 2/Interrupt Acknowledge 0.
For INT2 feature, except the differences in interrupt line and interrupt
address vector, the function of INT2 is the same as that of INT4.
For INTA0_n feature, in cascade mode or special fully-nested mode,
this pin corresponds to INT0.
Maskable Interrupt Request 1/Slave Select.
For INT1 feature, except the differences in interrupt line and interrupt
address vector, the function of INT1 is the same as that of INT4.
For SELECT_n feature, when the micro-controller is as a slave
device, this pin is driven from the master interrupt controller
decoding. This pin is activated to indicate that an interrupt appears
on the address and data bus.
INT0 must be active before SELECT_n is activated when the
interrupt type appears on the bus.
Maskable Interrupt Request 0. Except the differences in interrupt line
and interrupt address vector, the function of INT0 is the same as that
of INT4.
z Timer Control Unit Interface
PIN No.
Symbol
Type
72
75
TMRIN1/PIO0
TMRIN0/PIO11
I/O
73
74
TMROUT1/PIO1
TMROUT0/PIO10
O/I
R8822 Datasheet
Final Version 1.7
May 19, 2005
Description
Timer Inputs. These pins can be used as clock or control signal
inputs, depending upon the programmed timer mode. After internally
synchronizing low to high transitions on TMRIN, the timer controller
increments. These pins must be pulled up if not used.
Timer outputs. Depending upon timer mode selects, these pins
provide single pulses or continuous waveforms. The duty cycles of
the waveforms can be programmable. These pins are floating during
a bus hold or reset.
15
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
z DMA Unit Interface
PIN No.
Symbol
Type
76
77
DRQ1/INT6/PIO13
DRQ0/INT5/PIO12
I/O
Description
DMA Request. These pins are asserted high by an external device
when the device is ready for DMA channel 1 or channel 0 to
perform a transfer. These pins are level-triggered and internally
synchronized. The DRQ signals are not latched and must remain
active until finish is serviced.
For INT6/INT5: When the DMA function is not used, INT6 and INT5
can be used as additional external interrupt requests. They share
the corresponding interrupt types and register control bits. INT6/5
are level-triggered only and not necessary to be held until the
interrupt is acknowledged. (Interrupt requests are kept on such high
levels.)
Notes:
1. When the PIO mode and direction registers are configured as PIO modes, the 32 MUX definition pins can be
set as PIO pins. For example, DRQ1/INT6/PIO13 (pin76) can be set as PIO13.
2. The PIO status during power-on resets: PIO1, PIO10, PIO22 and PIO23 are inputs with pull-downs, PIO4 to
PIO9 are in normal operations, and the others are inputs with pull-ups.
3.4 R8822 I/O Characteristics of Each Pin
16
PQFP
Pin No.
Pin Name
71
RST_n
8
ARDY
45
47
HOLD
NMI
CMOS input,
with a 50K internal pull-down resistor
56
55
16
17
INT0
INT1/SELECT_n
CLKOUTA
CLKOUTB
Schmitt trigger TTL input,
with a 10K internal pull-down resistor
9
S2_n/BWSEL
10
11
43
6
5
S1_n
S0_n
WLB_n
RD_n
WR_n
19
20
22
23
24
A19/PIO9
A18/PIO8
A17/MA8/PIO7
A16
A15/MA7
Characteristics
Schmitt trigger input,
with a 50K internal pull-up resistor
Schmitt trigger input,
with a 50K internal pull-down resistor
8mA 3-state CMOS output
Bi-directional I/O, with a 50K internal pull-up resistor and 4mA
TTL output
4mA 3-state CMOS output
12mA 3-state CMOS output
Bi-directional I/O, with a 10K enabled/disabled internal pull-up
resistor when functioning as PIO and the 10K pull-up resistor
disabled for normal function; 16mA TTL output
16mA 3-state CMOS output
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
PQFP
Pin No.
Pin Name
25
26
27
28
29
30
31
32
33
34
35
36
37
39
40
78
80
82
84
86
88
91
94
79
81
83
85
87
90
93
95
A14
A13/MA6
A12
A11/MA5
A10
A9/MA4
A8
A7/MA3
A6
A5/MA2
A4
A3/MA1
A2
A1/MA0
A0
AD0
AD1
AD2
AD3
AD4
AD5
AD6
AD7
AD8
AD9
AD10
AD11
AD12
AD13
AD14
AD15
7
ALE
46
74
73
2
1
SRDY/PIO6
TMROUT0/PIO10
TMROUT1/PIO1
TXD0/PIO22
RXD0/PIO23
4
BHE_n/ADEN_n
42
WHB_n
44
HLDA
54
52
INT2/INTA0_n/PIO31
INT4/PIO30
53
INT3/INTA1_n/IRQ
R8822 Datasheet
Final Version 1.7
May 19, 2005
16-Bit RISC Micro-controller
Characteristics
Bi-directional I/O; 16mA TTL output
Bi-directional I/O, with a 50K internal pull-down resistor;
4mA TTL output
Bi-directional I/O, with a 10K enabled/disabled internal pull-down
resistor when functioning as PIO and the 10k pull-down resistor
disabled for normal function;
8mA TTL output.
Bi-directional I/O, with a 50K internal pull-up resistor;
4mA TTL output
Bi-directional I/O, with a 50K internal pull-up resistor;
12mA TTL output
4mA CMOS output
Bi-directional I/O, with a 10K enabled/disabled internal pull-up
resistor when functioning as PIO and the 10k pull-up resistor
disabled for normal function;
8mA TTL output;
TTL schmitt trigger input
Bi-directional I/O, with a 10K internal pull-up resistor;
8mA TTL output,;
TTL schmitt trigger input
17
RDC®
PQFP
Pin No.
Pin Name
57
58
UCS_n/ONCE1_n
LCS_n/ONCE0_n/RAS0_n
49
DEN_n/PIO5
48
DT/R_n/PIO4
66
PCS0_n/PIO16
65
PCS1_n/PIO17
63
PCS2_n/CTS1_n/ENRX1_n/PIO18
62
PCS3_n/RTS1_n/RTR1_n/PIO19
60
59
50
51
68
69
18
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Characteristics
Bi-directional I/O, with a 10K internal pull-up resistor;
8mA TTL output;
TTL schmitt trigger input
PCS5_n/A1/PIO3
PCS6_n/A2/PIO2
MCS0_n/PIO14
MCS1_n/UCAS_n/PIO15
MCS2_n/LCAS_n/PIO24
97
MCS3_n/RAS1_n/PIO25
UZI_n/PIO26
96
S6/CLKDIV2_n/PIO29
75
TMRIN0/PIO11
72
TMRIN1/PIO0
77
DRQ0/INT5/PIO12
76
DRQ1/INT6/PIO13
98
TXD1/PIO27
99
RXD1/PIO28
100
CTS0_n/ENRX0_n/PIO21
3
RTS0_n/RTR0_n/PIO20
Bi-directional I/O, with a 10K enabled/disabled internal pull-up
resistor when functioning as PIO and the 10k pull-up resistor
disabled for normal function;
8mA TTL output
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
4.
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Basic Application System Block
Flash ROM
AD[15:0]
Data(16)
A[19:1]
Address
X1
WR_n
WE_n
RD_n
OE_n
UCS_n
CE_n
X2
RS232
Serial port 0
SRAM
Level
Converter
Data(16)
R8822
Address
RS232
Level
Serial port 1
WE_n
OE_n
Converter
Timer0-1
INTx_n
LCS_n
CE_n
A0
LB_n
BHE_n
UB_n
DMA
Peripheral
VCC
PIO
Data
Address
100K
WE_n
OE_n
RST_n
1uF
PCSx_n
CS_n
BASIC APPLICATION SYSTEM BLOCK (A)
Flash ROM
High Byte
X1
AD[15:0]
D[15:8]
A[19:1]
Low Byte
D[7:0]
Address
Address
RD_n
OE_n
OE_n
UCS_n
CE_n
CE_n
WHB_n
WE_n
WE_n
X2
RS232
Serial port 0
WLB_n
SRAM
Level
High Byte
Converter
R8822
RS232
Level
Serial port 1
Converter
Low Byte
D[15:8]
D[7:0]
Address
Address
OE_n
OE_n
CE_n
CE_n
WE_n
WE_n
Timer0-1
LCS_n
INTx_n
DMA
VCC
Peripheral
PIO
Data
Address
100K
OE_n
RST_n
1uF
PCSx_n
CS_n
WR_n
WE_n
BASIC APPLICATION SYSTEM BLOCK (B)
R8822 Datasheet
Final Version 1.7
May 19, 2005
19
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Flash ROM
X1
AD[15:0]
A[19:0]
WR_n
RD_n
UCS_n
X2
Data(16)or(8)
Address
WE_n
OE_n
CE_n
S2_n/BWSEL
330R
EDO/FP-DRAM
RS232
Flash ROM byte/word access selection
byte access with a 330ohm pull-low resistor
Level
Serial port 0
R8822
Converter
RS232
Level
Serial port 1
RAS_n
UCAS_n
LCAS_n
WR_n
RD_n
Converter
(256Kx16)
Timer0-1
INTx_n
VCC
DMA
PIO
Peripheral
100K
1uF
RST_n
Data(16)
MA[0:8]
RAS_n
UCAS_n
LCAS_n
WE_n
OE_n
PCSx_n
WR_n
RD_n
Data(16)or(8)
Address
CS_n
WE_n
OE_n
BASIC APPLICATION SYSTEM BLOCK (C)
20
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
4.5. Read/Write Timing Diagram
T1
T2
T3
CLKOUTA
T4
TW
A[19:0]
ADDRESS
S6
AD[15:0]
ADDRESS
DATA
ALE
RD_n
BHE_n
UCS_n,LCS_n
PCSx_n,MCSx_n
DEN_n
DT/R_n
S2_n~S0_n
STATUS
UZI_n
READ CYCLE
R8822 Datasheet
Final Version 1.7
May 19, 2005
21
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
T1
T2
T3
CLKOUTA
T4
TW
A[19:0]
ADDRESS
S6
AD[15:0]
ADDRESS
DATA
ALE
WR_n
WHB_n, WLB_n
BHE_n
UCS_n, LCS_n
PCSx_n, MCSx_n
DEN_n
DT/R_n
S2_n~S0_n
STATUS
UZI_n
WRITE CYCLE
22
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
6.
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Crystal Characteristics
4.16.1 Fundamental Mode
X1
Rf
C1
X2
R8822
C2
L
C3
For fundamental-mode crystal:
Reference values
Frequency
Rf
C1
C2
C3
L
10.8288MHz
None
10Pf
10Pf
None
None
19.66MHz
None
10Pf
10Pf
None
None
30MHz
None
None
10Pf
None
None
33MHz
None
None
10Pf
None
None
28.322MHz
1.5M
15Pf
30Pf
220Pf
10uL
33.177MHz
1.5M
15Pf
30Pf
220Pf
4.7uL
40MHz
1.5M
15Pf
30Pf
220Pf
2.7uL
40MHz
None
None
10Pf
None
None
For third-overtone mode crystal:
Reference values
Frequency
Rf
C1
C2
C3
L
R8822 Datasheet
Final Version 1.7
May 19, 2005
22.1184MHz
1M
15Pf
30Pf
None
None
23
RDC®
7.
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Execution Unit
6.17.1 General Registers
The R8822 has eight 16-bit general registers. The AX, BX, CX and DX can be subdivided into two 8-bit
registers (AH, AL, BH, BL, CH, CL, DH and DL). The functions of these registers are described as follows:
AX: word divide, word multiply, word I/O operation
AH: byte divide, byte multiply, byte I/O, decimal arithmetic, translate operation
AL: byte divide, byte multiply operation
BX: translate operation
CX: loops, string operation
CL: variable shift and rotate operation
DX: word divide, word multiply, indirect I/O operation
SP: stack operations (POP, POPA, POPF, PUSH, PUSHA and PUSHF)
BP: general-purpose registers which can be used to determine offset address of operands in memory
SI: string operations
DI: string operations
High
15
Data
Group
Index Group
and
Pointer
Low
8 7
0
AX
AH
AL
Accumulator
BX
BH
BL
Base Register
CX
CH
CL
Count/Loop/Repeat/Shift
DX
DH
DL
Data
SP
Stack Pointer
BP
Base Pointer
SI
Source Index
DI
Destination Index
GENERAL REGISTERS
24
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
6.27.2 Segment Registers
The R8822 has four 16-bit segment registers: CS, DS, SS and ES. The segment registers contain the base
addresses (starting location) of these memory segments. They are immediately addressable for code (CS), data
(DS & ES) and stack (SS) memory.
CS (Code Segment): The CS register points to the current code segment, which contains instructions to be
fetched. The default memory space for all instructions is 64K. The initial value of CS register is 0FFFFh.
DS (Data Segment): The DS register points to the current data segment, which generally contains program
variables. The DS register is initialized to 0000h.
SS (Stack Segment): The SS register points to the current stack segment, which is for all stack operations, such
as pushes and pops. The stack segment is used for temporary space. The SS register is initialized to 0000h.
ES (Extra Segment): The ES register points to the current extra segment, which is typically for data storage, such
as large string operations and large data structures. The DS ES register is initialized to 0000h.
15
8 7
0
CS
Code Segment
DS
Data Segment
SS
Stack Segment
ES
Extra Segment
SEGMENT REGISTERS
6.37.3 Instruction Pointer and Status Flags Registers
IP (Instruction Pointer): The IP is a 16-bit register containing the offset of the next instruction to be fetched.
This register cannot be directly accessed by software. It is updated by the bus interface unit and can be changed,
saved or restored as a result of program execution. The IP register is initialized to 0000h and the starting
execution address for CS:IP is at 0FFFF0h.
R8822 Datasheet
Final Version 1.7
May 19, 2005
25
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Name:
Processor Status Flags Register
Reset Value
0000h
15
14
:
13
12
Reserved
11
10
9
8
7
6
5
4
3
2
1
0
OF
DF
IF
TF
SF
ZF
Rsvd
AF
Rsvd
PF
Rsvd
CF
These flags reflect the status after the Execution Unit is executed.
Bit
Name
15-12
Rsvd
11
OF
10
DF
9
IF
8
TF
7
SF
6
ZF
5
Rsvd
4
AF
3
Rsvd
2
PF
1
Rsvd
0
CF
26
Description
Reserved.
Overflow Flag. If an arithmetic overflow occurs, this flag will be set.
Direction Flag. If this flag is set, the string instructions are in the process of
incrementing addresses. If DF is cleared, the string instructions are in the process of
decrementing addresses. Refer to the STD and CLD instructions for setting and
clearing the DF flag.
Interrupt-Enable Flag. Refer to the STI and CLI instructions for setting and clearing
the IF flag.
Set 1: The CPU enables the maskable interrupt requests.
Set 0: The CPU disables the maskable interrupt requests.
Trace Flag. Set to enable single-step mode for debugging; cleared to disable the
single-step mode. If an application program sets the TF flag with a POPF or IRET
instruction, a debug exception is generated after the instruction (The CPU
automatically generates an interrupt after each instruction) that follows the POPF or
IRET instruction.
Sign Flag. If this flag is set, the high-order bit of the result of an operation will be 1,
indicating the state of being negative.
Zero Flag. If this flag is set, the result of the operation will be zero.
Reserved
Auxiliary Flag. If this flag is set, there will be a carry from the low nibble to the high
one or a borrow from the high nibble to the low one of the AL general-purpose
register. It is used in BCD operation.
Reserved
Parity Flag. If this flag is set, the result of the low-order 8-bit operation will have even
parities.
Reserved
Carry Flag. If CF is set, there will be a carry out or a borrow into the high-order bit of
the instruction result.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
6.47.4 Address Generation
6.5
The Execution Unit generates a 20-bit physical address to the Bus Interface Unit by Address Generation. Memory
is organized in sets of segments. Each segment contains a 16-bit value. Memory is addressed with a
two-component address that consists of a 16-bit segment and 16-bit offset. The Physical Address Generation figure
describes how the logical address is transferred to the physical address.
Shift left 4 bits
1
2
F
15
1
2
F
9
19
0
0
0
1
15
1
0
2
0
9
Segment Base
0
0
1
15
2
Logical
Address
Offset
0
2
0
F
A
19
2
Physical Address
0
TO Memory
Physical Address Generation
R8822 Datasheet
Final Version 1.7
May 19, 2005
27
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
7.8. Peripheral Register List
The peripheral control block can be mapped into either memory or I/O space by programming the FEh
register. It starts at FF00h in I/O space when the microprocessor is reset. The definitions of all the peripheral
control block registers are listed in the following table and the complete descriptions arranged in the related block
units.
Offset
(HEX)
FE
FA
F6
F4
F2
F0
E6
E4
E2
DA
D8
D6
D4
D2
D0
CA
C8
C6
C4
C2
C0
A8
A6
A4
A2
A0
88
86
84
82
80
7A
78
76
74
72
70
28
Register Name
Peripheral Control Block Relocation Register
Disable Peripheral Clock Register
Reset Configuration Register
Processor Release Level Register
Auxiliary Configuration Register
Power-Save Control Register
Watchdog Timer Control Register
Refresh Counter Register
Refresh Reload Value Counter Register
DMA 1 Control Register
DMA 1 Transfer Count Register
DMA 1 Destination Address High Register
DMA 1 Destination Address Low Register
DMA 1 Source Address High Register
DMA 1 Source Address Low Register
DMA 0 Control Register
DMA 0 Transfer Count Register
DMA 0 Destination Address High Register
DMA 0 Destination Address Low Register
DMA 0 Source Address High Register
DMA 0 Source Address Low Register
PCS_n and MCS_n Auxiliary Register
Midrange Memory Chip Select Register
Peripheral Chip Select Register
Low Memory Chip Select Register
Upper Memory Chip Select Register
Serial Port 0 Baud Rate Divisor Register
Serial Port 0 Receive Register
Serial Port 0 Transmit Register
Serial Port 0 Status Register
Serial Port 0 Control Register
PIO Data 1 Register
PIO Direction 1 Register
PIO Mode 1 Register
PIO Data 0 Register
PIO Direction 0 Register
PIO Mode 0 Register
Page
29
32
34
29
39
31
83
99
98
72
73
73
73
74
74
69
71
71
71
72
72
44
43
45
41
40
90
90
90
89
88
94
94
95
95
95
96
Offset
(HEX)
Register Name
Page
66
62
60
5E
5C
5A
58
56
54
52
50
46
44
42
40
3E
3C
3A
38
36
34
32
30
2E
2C
2A
28
26
24
22
20
18
16
14
12
10
Timer 2 Mode/Control Register
Timer 2 Maxcount Compare A Register
Timer 2 Count Register
Timer 1 Mode/Control Register
Timer 1 Maxcount Compare B Register
Timer 1 Maxcount Compare A Register
Timer 1 Count Register
Timer 0 Mode/Control Register
Timer 0 Maxcount Compare B Register
Timer 0 Maxcount Compare A Register
Timer 0 Count Register
Power-Down Configuration Register
Serial Port 0 Interrupt Control Register
Serial Port 1 Interrupt Control Register
INT4 Control Register
INT3 Control Register
INT2 Control Register
INT1 Control Register
INT0 Control Register
DMA1/INT6 Interrupt Control Register
DMA0/INT5 Interrupt Control Register
Timer Interrupt Control Register
Interrupt Status Register
Interrupt Request Register
Interrupt In-Service Register
Interrupt Priority Mask Register
Interrupt Mask Register
Interrupt Poll Status Register
Interrupt Poll Register
End-of-Interrupt Register
Interrupt Vector Register
Serial Port 1 Baud Rate Divisor Register
Serial Port 1 Receive Register
Serial Port 1 Transmit Register
Serial Port 1 Status Register
Serial Port 1 Control Register
81
82
82
80
81
80
80
77
79
79
79
32
51
51
52
53
53
54
55
56
57
58
59
60
61
63
64
65
65
66
67
92
91
91
91
91
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
Register Offset:
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
FEh
Register Name:
Peripheral Control Block Relocation Register
Reset Value
000020FFh
15
14
Rsvd
S/M_n
:
13
12
11
10
9
8
7
Rsvd M/IO_n
6
5
4
3
2
1
0
R [19:8]
The Peripheral Control Block (PCB) is mapped into either memory or I/O space by programming this register. When
the other chip selects (PCSx_n or MCSx_n) are programmed to zero wait state and the external ready is ignored,
PCSx_n or MCSx_n can overlap the control block.
Bit
Name
Attribute
Description
15
Rsvd
RO
Reserved.
14
S/M_n
R/W
Slave/Master – configures the interrupt controller.
Set 0: Master mode.
Set 1: Slave mode.
13
Rsvd
RO
Reserved.
12
M/IO_n
R/W
11-0
R[19:8]
R/W
Memory/IO space. At reset, this bit is set to 0 and the PCB map starts at FF00h in I/O
space.
Set 1: The peripheral control block (PCB) is located in memory space.
Set 0: The PCB is located in I/O space (default).
Relocation Address bits.
The upper address bits of the PCB base address. The lower eight bits default to 00h.
When the PCB is mapped into I/O space, R[19:16] must be programmed to 0000b.
Register Offset:
F4h
Register Name:
Processor Release Level Register
Reset Value
--00D90h
15
14
:
13
12
11
10
9
PRL
8
7
6
5
4
3
2
1
0
1
01
0
1
1
0
0
1
This read-only register specifies the processor release version and RDC identification number.
Bit
Name
Attribute
Description
15-13
Read only:011
12-8
Processor Version.
01h: Version A.
02h: Version B
03h: Version C
04h: Version D
7-0
PRL
RO
ID
RO
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC identification number is --D9.
29
RDC®
9.
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Power-Save & Power-Down
PSEN(F0h.15)
PWD(46h.15)
enable/disable
Microprocessor Internal Clock
enable/disable
CLKIN
X1
X2
CLKIN
or
CLKIN/2
CLK
CLOCK
Divisior
(CLK/2-CLK/128)
MUX
CLKOUTA
CAD(F0h.8)
CLKIN/2 Select
Divisor Select
CAF(F0h.9)
F2-F0(F0h.2-F0h.0)
S6/CLKDIV2_n
MUX
CLKOUTB
CBD(F0h.10)
CBF(F0h.11)
System Clock
The CPU provides power-save & power-down functions.
* Power-Save:
In power-save mode, users can program the Power-Save Control Register to divide the internal operating clock.
Users can also disable each non-used peripheral clock by programming the Disable Peripheral Clock Register.
* Power-Down:
The CPU can enter power-down mode (stop clock) when the Power-Down Configuration Register is programmed
and the CPU runs in full-speed or power-save mode. The CPU will be waked up when each one of the external
INT0, INT1, INT2, INT3 and INT4 pins is active high, and the CPU operating clock will go back to full-speed mode if
the INT function is serviced (the interrupt flag is enabled). If the interrupt flag is disabled, the CPU will be waked up
by INT, the operating clock will go back to the previous operating clock state, and the CPU will execute the next
program counter instruction. It will wait 19-bit counter time for the crystal clock to be stable when the CPU wakes
up from the stop clock mode.
30
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
F0h
Register Name:
Power-Save Control Register
Reset Value
0000000h
:
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
0
PSEN
MCSBI
T
0
0
CBF
CBD
CAF
CAD
0
0
0
0
0
F2
F1
F0
Bit
Name
Attribute
15
PSEN
R/W
14
MCSBIT
R/W
13-12
Rsvd
RO
11
CBF
R/W
10
CBD
R/W
9
CAF
R/W
8
CAD
R/W
7-3
Rsvd
RO
Description
Enable Power-Save Mode. This bit is cleared by hardware when an external
interrupt occurs. This bit will not change when software interrupts (INT instructions)
and exceptions occur.
Set 1: Enable power-save mode and divide the internal operating clock by values in
F[2:0].
MCS0_n Control bit.
Set 0: MCS0_n operates normally.
Set 1: MCS0_n is active over the entire MCSx_n range
Reserved.
CLKOUTB Output Frequency selection.
Set 1: The CLKOUTB output frequency is the same as the crystal input frequency.
Set 0: The CLKOUTB output frequency, which is the same as the internal clock
frequency of the microprocessor, is generated from the clock divisor.
CLKOUTB Drive Disable
Set 1: Disable CLKOUTB. This pin will be three-stated.
Set 0: Enable CLKOUTB.
CLKOUTA Output Frequency selection.
Set 1: The CLKOUTA output frequency is the same as the crystal input frequency.
Set 0: The CLKOUTA output frequency, which is the same as the internal clock
frequency of the microprocessor, is generated from the clock divisor.
CLKOUTA Drive Disable.
Set 1: Disable CLKOUTA. This pin will be three-stated.
Set 0: Enable CLKOUTA.
Reserved.
Clock Divisor Select.
F2,
2-0
F[2:0]
R8822 Datasheet
Final Version 1.7
May 19, 2005
R/W
F1, F0
----- Divider Factor
0,
0,
0
----
Divide by 1
0,
0,
1
----
Divide by 2
0,
1,
0
----
Divide by 4
0,
1,
1
----
Divide by 8
1,
0,
0
----
Divide by 16
1,
0,
1
----
Divide by 32
1,
1,
1,
1,
0
1
-------
Divide by 64
Divide by 128
31
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
FAh
Register Name:
Disable Peripheral Clock Register
Reset Value
0000000h
:
15
14
13
12
IntClk
UART
Clk
DMA
Clk
Timer
Clk
11
10
9
8
7
6
5
4
3
2
0
Reserved
Bit
Name
Attribute
15
IntClk
R/W
Set 1 to stop the Interrupt controller clock.
14
UARTClk
R/W
Set 1 to stop the asynchronous serial port controller clock.
13
DMAClk
R/W
Set 1 to stop the DMA controller clock.
12
TimerClk
R/W
Set 1 to stop the timer controller clock.
11-0
Rsvd
RO
Reserved.
Description
Register Offset:
46h
Register Name:
Power-Down Configuration Register
Reset Value
00000h
:
1
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
0
PWD
0
0
0
0
0
0
WIF
0
0
0
I4
I3
I2
I1
I0
Bit
32
Name
Attribute
Description
15
PWD
R/W
Power-Down Enable.
When this bit is set to 1, the CPU will enter power-down mode, then the crystal clock
will stop. The CPU will be waked up when an external INT (INT4–INT0]) is active
high. It will wait 19-bit counter time for the crystal clock to be stable before the CPU
is waked up.
14-9
Rsvd
RO
Reserved.
8
WIF
R/W
Wake-up Interrupt Flag.
Read-only bit. When the CPU is waked up by interrupts from power-down mode, this
bit will be set to 1 by hardware. Otherwise this bit is 0.
7-5
Rsvd
RO
Reserved.
4-0
I[4:0]
R/W
Enable the external interrupt (INT4 – INT0) wake-up function.
Set these bits to 1 to make the INT pins function as power-down wake-up pins.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
10. Reset
Processor initialization is accomplished with activation of the RST_n pin. To reset the processor, this pin
should be held low for at least seven oscillator periods. The Reset Status Figure shows the status of the RST_n
pin and the other related pins.
When RST_n goes from low to high, the state of input pins (with weak pull-up or pull-down resistors) will be
latched, and each pin will perform its individual function. AD [15:0] will be latched into Register F6h.
UCS_n/ONCE1_n and LCS_n/ONCE0_n/RAS0_n will enter ONCE mode (all of the pins will be floating except X1
and X2) when they are with pull-low resistors. The input clock will be divided by 2 when S6/CLKDIV2_n is with a
pull-low resistor. The AD[15:0] bus will drive both of the address and data regardless of the DA bit setting during
UCS_n and LCS_n cycles if BHE_n/ADEN_n is with a pull-low resistor
CLKOUTA
RST_n
min 7T
A[19:0]
ffff0
(float)
(input)
S6
AD[15:0]
(input)
ea
fff0
ALE
(float)
(float)
RD_n
(input)
BHE_n
(input)
UCS_n
(float)
DEN_n
DT/R_n
(float)
S2_n~S0_n
7
(float)
4
7
4
Reset Status
R8822 Datasheet
Final Version 1.7
May 19, 2005
33
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
F6h
Register Name:
Reset Configuration Register
Reset Value
AD [15:0]
15
14
:
13
12
11
10
9
8
7
6
5
4
3
2
1
0
RC
Bit
15-0
34
Name
RC
Attribute
Description
RO
Reset Configuration AD[15:0].
AD [15:0] must be with weak pull-up or pull-down resistors to correspond to the
contents when they are latched into this register as the RST_n signal goes from low
to high. The value of the Reset Configuration Register provides system information
when this register is read by software. This register is read only and the contents
remain valid until next processor is reset.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
10.11. Bus Interface Unit
The bus interface unit drives address, data, status and control information to define a bus cycle. A[19:0] form
a non-multiplexed memory or I/O address bus and AD[15:0] form a multiplexed address and data bus for memory
or I/O accesses. S2_n–S0_n are encoded to indicate the bus status, which is described in Chapter 3.3 (Functional
Description). The Basic Application System Block (Chapter 4) and Read/Write Timing Diagram (Chapter 5) describe
the basic bus operations.
When the DRAM controller is enabled and the microcontroller accesses the DRAM, AD[15:0] will perform
the DRAM data bus. MA[8:0] form a bus which is multiplexed with Address bus.
10.211.1
Memory and I/O Interface
The memory space consists of 1M bytes (512K 16-bit port) and the I/O space consists of 64K bytes (32K
16-bit port). Memory devices exchange information with the CPU during memory read, memory write and
instruction fetch bus cycles. I/O read and I/O write bus cycles use a separate I/O address space. Only IN/OUT
instructions can access I/O address space, and information must be transferred between the peripheral devices
and the AX register. The first 256 bytes of I/O space can be accessed directly by the I/O instructions. The entire
64K-byte I/O address space can be accessed indirectly through the DX register. The I/O instructions always force
address A[19:16] to low level.
FFFFFH
Memory
Space
1M Bytes
0FFFFH
I/O
Space
0
64K Bytes
0
Memory and I/O Space
R8822 Datasheet
Final Version 1.7
May 19, 2005
35
RDC®
10.311.2
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Data Bus
The data bus for memory address space is physically implemented by dividing the address space into two
banks of up to 512K bytes. One bank connects to the lower half of the data bus and contains the even-addressed
bytes (A0=0); the other bank connects to the upper half of the data bus and contains odd-addressed bytes (A0=1).
A0 and BHE_n determine either one bank or both banks participate in data transfers.
A19:1
512K Bytes
FFFFF
FFFFD
512K Bytes
FFFFE
FFFFC
5
3
1
4
2
0
D15:8
BHE_n
D7:0
A0
Physical Data Bus Models
10.411.3
Wait States
Wait states extend the data phase of the bus cycle. As long as the ARDY or SRDY input remains with low
level, wait states will be inserted in. If R2 bit=0, wait states can also be inserted in by programming the internal chip
select registers. The R2 bit of UMCS (offset A0h) defaults to be low, so either ARDY or SRDY should be in ready
state (with a pull-high resistor) when at power-on resets or external resets.
The wait-state counter value is decided by the R3, R1 and R0 bits in each chip select register. There are five
groups of the R3, R1 and R0 bits in Register offset A0h, A2h, A4h, A6h and A8h, and each group is independent.
R2 bit in control
registers
SRDY
D
ARDY
D
Q
CLKOUTA
CLKOUTA
Bus
Ready
Q
Falling
Edge
Wait-State
Counter
Rising
Edge
Bus Ready is active High
Wait State Block Diagram
36
The R2 bit in UMCS defaults to "0", so the CPU
requires external ready at power-on reset.
The wait-state counter value is located at
control registers in chip select unit.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
10.611.4
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Bus Hold
When another bus master requests a bus hold condition (HOLD is active high), the microprocessor will issue
an HLDA in response to a HOLD request at the end of T4 or Ti. When the microprocessor is in hold status (HLDA is
high), AD[15:0], A[19:0], WR_n, RD_n, DEN_n, S2_n–S0_n, S6, BHE_n, DT/R_n, WHB_n and WLB_n are floating,
and UCS_n, LCS_n, PCS6_n–PCS5_n, MCS3_n–MCS0_n and PCS3_n–PCS0_n will be driven high. After HOLD
is detected as being low, the microprocessor will lower HLDA.
Case 1
Case 2
Ti
T3
Ti
T4
Ti
Ti
Ti
Ti
CLKOUTA
HOLD
HLDA
AD[15:0]
Floating
Floating
A[19:0]
Floating
DEN_n
S6
Floating
RD_n
Floating
WR_n
Floating
DT/R_n
Floating
S2_n-S0_n
2
7
Floating
Floating
WLB_n
BUS HOLD ENTER WAVEFORMS
R8822 Datasheet
Final Version 1.7
May 19, 2005
37
RDC®
R8822
RISC DSP Communication
Case 1
Case 2
16-Bit RISC Micro-controller
Ti
Ti
Ti
Ti
Ti
T4
Ti
Ti
T1
T1
CLKOUTA
HOLD
HLDA
AD[15:0]
A[19:0]
Floating
DATA
Floating
ADDRESS
Floating
DEN_n
S6
RD_n
WR_n
DT/R_n
S2_n-S0_n
WLB_n
Floating
Floating
Floating
Floating
Floating
7
6
Floating
BUS HOLD LEAVE WAVEFORMS
11.5
Bus Width
The R8822 defaults to 16-bit bus access and the bus can be programmed as 8-bit or 16-bit access when
memory or I/O access is located in the LCS_n, MCSx_n or PCSx_n address space. The UCS_n code fetch
selection can be 8-bit or 16-bit bus width, which is decided by the S2_n/BWSEL pin input status as the RST_n pin
goes from low to high. When the S2_n/BWSEL pin is with a pull-low resistor, the code fetch selection is 8-bit bus
width. The DRAM bus width is 16 bits, which cannot be changed.
38
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
F2h
Register Name:
Auxiliary Configuration Register
Reset Value
0000h
15
14
:
13
12
11
Reserved
10
9
8
7
6
5
4
3
USIZ ENRX1 RTS1 ENRX0 RTS0
2
1
0
LSIZ
MSIZ
IOSIZ
Bit
Name
Attribute
Description
15-8
Rsvd
RO
7
USIZ
R/W
6
ENRX1
R/W
5
RTS1
R/W
4
ENRX0
R/W
3
RTS0
R/W
2
LSIZ
R/W
1
MSIZ
R/W
0
IOSIZ
R/W
Reserved.
Boot Code Bus Width. This bit reflects the S2_n/BWSEL pin input status when the
RST_n pin goes from low to high.
Set 0: 16-bit bus width booting when the S2_n/BWSEL pin is without a pull-low
resistor.
Set 1: 8-bit bus width booting when the S2_n/BWSEL pin is with a 330 ohm pull-low
resistor.
Enable the Receiver Request of Serial Port 1.
Set 1: The CTS1_n/ENRX1_n pin is configured as ENRX1_n.
Set 0: The CTS1_n/ENRX1_n pin is configured as CTS1_n.
Enable Request to Send of Serial Port 1.
Set 1: The RTR1_n/RTS1_n pin is configured as RTS1_n.
Set 0: The RTR1_n/RTS1_n pin is configured as RTR1_n.
Enable the Receiver Request of Serial Port 0.
Set 1: The CTS0_n/ENRX0_n pin is configured as ENRX0_n.
Set 0: The CTS0_n/ENRX0_n pin is configured as CTS0_n.
Enable Request to Send of Serial port 0.
Set 1: The RTR0_n/RTS0_n pin is configured as RTS0_n.
Set 0: The RTR0_n/RTS0_n pin is configured as RTR0_n.
LCS_n Data Bus Size selection. This bit cannot be changed while executing from the
LCS_n space or while the Peripheral Control Block is overlaid with the PCS_n space.
Set 1: 8-bit data bus access when the memory access is located in the LCS_n
memory space.
Set 0: 16-bit data bus access when the memory access is located in the LCS_n
memory space.
MCSx_n and PCSx_n Memory Space Data Bus Size selection. This bit cannot be
changed while executing from the associated address space or while the Peripheral
Control Block is overlaid on this address space.
Set 1: 8-bit data bus access when the memory access is located in the selected
memory space.
Set 0: 16-bit data bus access when the memory access is located in the selected
memory space.
I/O Space Data Bus Size selection. This bit determines the width of the data bus for
all I/O space accesses.
Set 1: 8-bit data bus access.
Set 0: 16-bit data bus access.
R8822 Datasheet
Final Version 1.7
May 19, 2005
39
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
11.12. Chip Select Unit
The Chip Select Unit provides 12 programmable chip select pins to access a specific memory or peripheral
device. The chip selects are programmed through five peripheral control registers (A0h, A2h, A4h, A6h and A8h)
and all the chip selects can be inserted wait states in by programming the peripheral control registers.
11.112.1
UCS_n
UCS_n defaults to active on reset for code accesses with a default memory range of 64K bytes (F0000h –
FFFFFh) and three wait states automatically inserted. However, the base address and size of the upper memory
block are programmable up to 512K bytes (80000h – FFFFFh). If no wait states are inserted, UCS_n will be driven
low within four CLKOUTA oscillatorsCLKOUTA when active.three
Register Offset:
A0h
Register Name:
Upper Memory Chip Select Register
Reset Value
F03Bh
15
1
:
14
13
12
11
10
9
8
7
6
5
4
3
2
1
0
0
0
0
0
DA
UDEN
1
1
1
R2
R1
R0
LB [2:0]
Bit
Name
Attribute
Description
15
Rsvd
RO
Reserved.
14-12
LB[2:0]
R/W
LB[2:0], Memory block size selection for the UCS_n chip select pin.
The region in which the UCS_n chip select pin is active can be configured by
LB[2:0]. The default memory block size is from F0000h to FFFFFh.
LB2, LB1, LB0 ---- Memory Block size , Start address, End Address
1 , 1 , 1 ---- 64K
, F0000h
, FFFFFh
1 , 1 , 0 ---- 128K
, E0000h
, FFFFFh
1 , 0 , 0 ---- 256K
, C0000h
, FFFFFh
0 , 0 , 0 ---- 512K
, 80000h
, FFFFFh
11-8
Rsvd
RO
Reserved
40
7
DA
R/W
6
UDEN
R/W
Disable Address. If the BHE_n/ADEN_n pin is held high on the rising edge of
RST_n, the DA bit will be valid to enable/disable the address phase of the AD bus. If
the BHE_n/ADEN_n pin is held low on the rising edge of RST_n, the AD bus will
always drive both the address and data, regardless of the DA bit setting.
Set 1: Disable the address phase of the AD[15:0] bus cycle when UCS_n is
asserted.
Set 0: Enable the address phase of the AD[15:0] bus cycle when UCS_n is
asserted.
Upper DRAM Enable. Set this bit to enable the bank2 (80000h – FFFFFh) DRAM
controller. When the UDEN bit is set, the MCS3_n pin becomes RAS1_n, and the
MCS1_n and MCS2_n pins become UCAS_n and LCAS_n respectively. The UCS_n
R8822 Datasheet
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RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
pin is disabled when the UDEN bit is set to 1. Users can boot the code from flash
memory with the UCS_n pin and switch space to DRAM bank 1 after system
initialization.
5-3
Rsvd
RO
2
R2
R/W
1-0
R[1:0]
R/W
11.212.2
Reserved
Ready Mode. This bit is used to configure the ready mode for the UCS_n chip
select.
Set 1: external ready is ignored.
Set 0: external ready is required.
R1-R0, Wait-State value. When R2 is set to 0, wait states can be inserted into an
access to the UCS_n memory area.
The reset value of (R1,R0) is (1,1).
R1, R0 -- Wait States
0,
0 -0
0,
1 -1
1,
0 -2
1,
1 -3
LCS_n
LCS_n means lower memory chip selects. The base address and size of the lower memory block (which have
no default size on reset) are programmable up to 512K bytes (00000h-7FFFFh). Register A2h must be
programmed first before the target memory range is accessed. The LCS_n pin is not active on reset, but any read
or write access to the A2h register activates this pin.
Register Offset:
A2h
Register Name:
Low Memory Chip Select Register
Reset Value
:
-----
13
12
15
0
14
11
10
9
8
7
6
5
4
3
2
1
0
1
1
1
1
DA
LDEN
1
1
1
R2
R1
R0
UB [2:0]
Bit
Name
Attribute
Description
15
Rsvd
RO
Reserved.
14-12
UB[2:0]
R/W
UB[2:0], Memory block size selection for the LCS_n chip select pin. The region in
which the LCS_n chip select pin is active can be configured by UB[2:0]. The LCS_n
pin is not active on reset, but any read or write access to the A2h (LMCS) register
activates this pin.
UB2, UB1, UB0 ---- Memory Block size , Start address, End Address
0 , 0 , 0 ---64K
, 00000h
, 0FFFFh
0 , 0 , 1 ---- 128K
, 00000h
, 1FFFFh
0 , 1 , 1 ---- 256K
, 00000h
, 3FFFFh
1 , 1 , 1 ---- 512K
, 00000h
, 7FFFFh
11-8
Rsvd
RO
Reserved
7
DA
R/W
Disable Address. If the BHE_n/ADEN_n pin is held high on the rising edge of
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41
RDC®
R8822
RISC DSP Communication
6
LDEN
R/W
5-3
Rsvd
RO
2
R2
R/W
1-0
R[1:0]
R/W
12.3
MCSx_n
16-Bit RISC Micro-controller
RST_n, the DA bit will be valid to enable/disable the address phase of the AD bus. If
the BHE_n/ADEN_n pin is held low on the rising edge of RST_n, the AD bus will
always drive the address and data.
Set 1: Disable the address phase of the AD[15:0] bus cycle when LCS_n is
asserted.
Set 0: Enable the address phase of the AD[15:0] bus cycle when LCS_n is asserted.
Lower DRAM Enable. This bit is used to enable the bank 0 (00000h-7FFFFh) DRAM
controller.
Set LDEN to 1, the LCS_n pin becomes RAS0_n and the MCS1_n and MCS2_n
pins become UCAS_n and LCAS_n respectively.
Reserved
Ready Mode. This bit is used to configure the ready mode for the LCS_n chip select.
Set 1: external ready is ignored.
Set 0: external ready is required.
Wait-state value. When R2 is set to 0, wait states can be inserted into an access to
the LCS_n memory area.
R1, R0 -- Wait States
0,
0 -0
0,
1 -1
1,
0 -2
1,
1 -3
The memory block of MCS3_n – MCS0_n can be located anywhere within the 1M-byte memory space,
exclusive of the areas associated with the UCS_n and LCS_n chip selects. The base address and size of the
midrange memory block are programmable up to 512K bytes. The 512K MCSx_n block size can only be used
when located at address 00000h, and the LCS_n chip selects must not be active in this case. Locating the 512K
MCSx_n block size at 80000h is not allowed because it always in conflict with the range of UCS_n or RAS1_n. The
MCS_n chip selects are programmed through two registers A6h and A8h, but these select pins are not active on
resets. Both of the A6h and A8h registers must be accessed with a read or write to activate MCS3_n–MCS0_n.
There is no default value in the A6h and A8h registers, so the A6h and A8h must be programmed first before
MCS3_n–MCS0_n are activated. When the DRAM controller is enabled, MCS3_n–MCS1_n are performed as
DRAM interface. (Refer to the DRAM Controller unit.)
42
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RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
A6h
Register Name:
Midrange Memory Chip Select Register
Reset Value
:
----
13
12
15
14
11
BA[19:13]
Bit
Name
Attribute
15-9 BA[19:13]
R/W
8-3
Rsvd
RO
2
R2
R/W
1-0
R[1:0]
R/W
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Final Version 1.7
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10
9
8
7
6
5
4
3
2
1
0
1
1
1
1
1
1
R2
R1
R0
Description
Base Address. BA[19:13] correspond to bit[19:13] of the 1M-byte (20-bit)
programmable base address of the MCS_n chip select block. Bits 12 to 0 of the base
address are always 0. The base address can be set to any integer multiple of the
size of the memory block size selected in these bits. For example, if the midrange
block is 32K bytes, only bits BA[19:15] can be programmed. Therefore, the block
address could be located at 20000h or 38000h but not 22000h.
The base address of the MCS_n chip select can be set to 00000h only if the LCS_n
chip select is not active. The MCS_n chip select address range is not allowed to
overlap the LCS_n chip select address range. The MCS_n chip select address range
is not allowed to overlap the UCS_n chip select address range, either.
Reserved.
Ready Mode. This bit is configured to enable/disable the wait states inserted for the
MCS_n chip selects. The R1 and R0 bits of this register determine the number of
wait states to be inserted.
Set 1: external ready is ignored.
Set 0: external ready is required.
Wait-State Value.
R1 and R0 determine the number of wait states inserted into an access to the
MCS_n memory area
R1, R0 -- Wait States
0,
0 -0
0,
1 -1
1,
0 -2
1,
1 -3
43
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
A8h
Register Name:
PCS_n and MCS_n Auxiliary Register
Reset Value
:
──
13
12
15
14
Rsvd
11
M[6:0]
10
9
8
7
6
EX
MS
5
4
Reserved
3
2
1
0
R2
R1
R0
Bit
Name
Attribute
Description
15
Rsvd
RO
14-8
M[6:0]
R/W
7
EX
R/W
6
MS
R/W
Reserved.
MCS_n Block Size. These bits determine the total block size for the MCS3_n –
MCS0_n chip selects. Each individual chip select is active for one quarter of the total
block size. For example, if the block size is 32K bytes and the base address located
at 20000h, MCS3_n to MCS0_n are individually active from:
MCS0_n – 20000h to 21FFFh;
MCS1_n – 22000h to 23FFFh;
MCS2_n – 24000h to 25FFFh;
MCS3_n – 26000h to 27FFFh.
MCSx_n total block size is defined by M[6:0],
M[6:0]
, Total block size, MCSx_n address active range
0000001b ,
8K
,
2K
0000010b ,
16K
,
4K
0000100b ,
32K
,
8K
0001000b ,
64K
,
16K
0010000b ,
128K
,
32K
0100000b ,
256K
,
64K
1000000b ,
512K
,
128K
Pin Selector. Setting this bit configures the multiplexed outputs as chip selects
(PCS6_n – PCS5_n) or A2-A1.
Set 1: PCS6_n and PCS5_n are configured as peripheral chip select pins.
Set 0: PCS6_n is configured as address bit A2 and PCS5_n configured as A1.
Memory or I/O space selector. This bit determines whether the PCSx_n pins are
active during memory or I/O bus cycle.
Set 1: The PCSx_n pins are active for memory bus cycle.
Set 0: The PCSx_n pins are active for I/O bus cycle.
5-3
Rsvd
RO
2
R2
R/W
1-0
R[1:0]
R/W
44
Reserved.
Ready Mode. This bit is configured to enable/disable the wait states inserted for the
PCS5_n and PCS6_n chip selects. The R1 and R0 bits of this register determine the
number of wait states to be inserted.
Set 1: external ready is ignored.
Set 0: external ready is required.
Wait-State Value.
R1 and R0 determine the number of wait states inserted into an access to the
PCS5_n – PCS6_n memory area.
R1, R0 -- Wait States
0,
0 -0
0,
1 -1
1,
0 -2
1,
1 -3
R8822 Datasheet
Final Version 1.7
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RDC®
11.312.4
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
PCSx_n
In order to define these pins, the peripheral or memory chip selects are programmed through the A4h and
A8h registers. The base address memory block can be located anywhere within the 1M-byte memory space,
exclusive of the areas associated with the UCS_n, LCS_n and MCS_n chip selects. If the chip selects are mapped
to I/O space, the access range will be 64k bytes. PCS6_n–PCS5_n can be configured from 0 to 3 wait states.
PCS3_n–PCS0_n can be configured from 0 to 15 wait states
Register Offset:
A4h
Register Name:
Peripheral Chip Select Register
Reset Value
0000h----
15
14
:
13
12
11
10
9
8
7
BA [19:11]
Bit
Name
Attribute
6
5
4
3
2
1
0
1
1
1
R3
R2
R1
R0
Description
Base Address. BA[19:11] correspond to bit [19:11] of the 1M-byte (20-bit)
programmable base address of the PCS_n chip select block. When the PCS_n chip
selects are mapped to I/O space, BA[19:16] must be written to 0000b because the
I/O address bus is only 64K bytes (16 bits) wide.
PCSx_n address range:
PCS0_n : Base Address
Base Address+255
PCS1_n : Base Address+256 Base Address+511
PCS2_n : Base Address+512 Base Address+767
PCS3_n : Base Address+768 Base Address+1023
PCS5_n : Base Address+1280 Base Address+1535
PCS6_n : Base Address+1536 Base Address+1791
15-7 BA[19:12]
R/W
6-4
Rsvd
RO
Reserved.
3
R3
R/W
2
R2
R/W
See bit[1:0].
Ready Mode. This bit is configured to enable/disable the wait states inserted for the
PCS3_n–PCS0_n chip selects. The R3, R1 and R0 bits determine the number of wait
states to be inserted.
Set 1: external ready is ignored.
Set 0: external ready is required.
Bit 3, Bit 1-0: R3, R1, R0, Wait-State Value.
R3, R1 and R0 determine the number of wait states inserted into an access to the
PCS3_n–PCS0_n memory area.
1-0
R[1:0]
R8822 Datasheet
Final Version 1.7
May 19, 2005
R/W
R3,
0,
0,
0,
0,
1,
1,
1,
1,
R1,
0,
0,
1,
1,
0,
0,
1,
1,
R0
0
1
0
1
0
1
0
1
-- Wait States
-0
-1
-2
-3
-5
-7
-9
-15
45
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
13. Interrupt Controller Unit
There are 16 interrupt request sources connected to the controller: 7 maskable interrupt pins (INT0 – INT6);
2 non-maskable interrupts (NMI and WDT); 7 internal unit request sources (Timer 0, 1 and 2; DMA 0 and 1;
Asynchronous serial port 0 and 1).
Master/Slave Mode Select
(FEH.14)
Timer0/1/2
Interrupt REQ.
0
Timer0 REQ.
1
INT0
0
Timer1 REQ.
1
INT1
0
Timer2 REQ.
1
DMA0 Interrupt REQ.
INT5
Interrupt Type
Execation
Unit
Interrupt REQ.
NMI
NMI
Watchdog Timer
Interrupt
Control
Logic
DMA1 Interrupt REQ.
16 Bit
INT6
INT2
INT3
EOI
Register
INT4
Acknowledge
Asynchronous Serial Port 0
In-Service
Register
Asynchronous Serial Port 1
Acknowledge to DMA,
Timer,Serial port Unit
16 Bit
Internal Address/Data Bus
Interrupt Control Unit Block Diagram
46
R8822 Datasheet
Final Version 1.7
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RDC®
13.1
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Master Mode and Slave Mode
The interrupt controller can be programmed as master or slave mode (by programming FEh [14]). The
master mode has two connections: fully nested mode or cascade mode.
INT0
INT1
INT2
INT3
INT4
INT5
INT6
Interrupt
Interrupt
Interrupt
Interrupt
Interrupt
Interrupt
Interrupt
Source
Source
Source
Source
Source
Source
Source
R8822
Fully Nested Mode Connections
Interrupt Sources
IR7
INT
INT0
INT4
8259
INT5
8259
INT6
INTA
CAS3-CAS0
INTA0_n
Interrupt Sources
CAS3-CAS0
R8822
IR7
INT1
Interrupt Sources
8259
8259
INTA1_n
CAS3-CAS0
INT
INTA
CAS3-CAS0
Interrupt Sources
Cascade Mode Connection
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47
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
INT0
8259
INTA0_n
R8822
Cascade
Address Decode
Select_n
IRQ
Slave Mode Connection
13.2
Interrupt Vectors, Types and Priorities
The following table shows the interrupt vector addresses, types and priorities. Programming the priority
registers may change the maskable interrupt priorities. The vector address for each interrupt is fixed.
Interrupt Source
Interrupt
Type
Divide Error Exception
00h
Trace interrupt
01h
NMI
02h
Breakpoint Interrupt
03h
INTO Detected Over Flow Exception 04h
Array Bounds Exception
05h
Undefined Opcode Exception
06h
ESC Opcode Exception
07h
Timer 0
08h
Reserved
09h
DMA 0/INT5
0Ah
DMA 1/INT6
0Bh
INT0
0Ch
INT1
0Dh
INT2
0Eh
INT3
0Fh
INT4
10h
Asynchronous Serial port 1
11h
Timer 1
12h
Timer 2
13h
Asynchronous Serial port 0
14h
Reserved
15h-1Fh
Vector
EOI
Address Type
00h
04h
08h
0Ch
10h
14h
18h
1Ch
20h
08h
1
1-1
1-2
1
1
1
1
1
2-1
28h
2Ch
30h
34h
38h
3Ch
40h
44h
48h
4Ch
50h
3
4
5
6
7
8
9
9
2-2
2-3
9
0Ah
0Bh
0Ch
0Dh
0Eh
0Fh
10h
11h
08h
08h
14h
Priority
Note
*
*
*/**
**
**
*/**
*/**
Note *: When interrupts occur at the same time, the priority is (1-1 > 1-2); (2-1> 2-2 > 2-3).
Note **: The interrupt types of these sources are programmable in slave mode.
48
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RDC®
13.3
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Interrupt Requests
When an interrupt is requested, the internal interrupt controller verifies that the interrupt is enabled (the IF
flag is enabled, but no MSK bit is set) and that there is no higher priority interrupt request being serviced or pending.
If the interrupt is granted, the interrupt controller uses the interrupt type to access a vector from the interrupt vector
table.
If the external INT is active (level-triggered) to request the interrupt controller service, the INT pins must be
held till the micro-controller enters the interrupt service routine. There is no interrupt-acknowledge output when the
micro-controller runs in fully nested mode, so the PIO pin should be used to simulate the interrupt-acknowledge pin
if necessary.
13.4
Interrupt Acknowledge
The processor requires the interrupt type as an index into the interrupt table. An internal interrupt controller
can provide the interrupt type or an external interrupt controller can provide the interrupt type. When the internal
interrupt controller provides the interrupt type to the processor, no external bus cycle is generated. When the
external interrupt controller provides the interrupt type, the processor will generate two acknowledge bus cycles
and the interrupt type will be written to the AD[15:0] lines by the external interrupt controller.
R8822 Datasheet
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49
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
T1
T2
T3
T4
T1
T2
T3
T4
CLKOUTA
ADDRESS
A[19:0]
S6
Interrupt
TYPE
AD[15:0]
ALE
BHE_n
INTA0_n,INTA1_n
DEN_n
DT/R_n
S2_n-S0_n
7
0
INTR ACK
7
0
INTR ACK
INTERRUPT ACKNOWLEDGE CYCLE
(CASECADE OR SLAVE MODE)
13.5
Programming Registers
Registers (Master mode: 44h, 42h, 40h, 3Eh, 3Ch, 3Ah, 38h, 36h, 34h, 32h, 30h, 2Eh, 2Ch, 2Ah, 28h, 26h,
24h and 22h; Slave Mode: 3Ah, 38h, 36h, 34h, 32h, 30h, 2Eh, 2Ch, 2Ah, 28h, 22h and 20h) are programmed by
software to define the interrupt controller operation.
50
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RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
44h
Register Name:
Serial Port 0 Interrupt Control Register
Reset Value
0001Fh
15
14
:
13
12
11
10
9
8
7
6
5
Reserved
4
3
2
1
0
1
MSK
PR2
PR1
PR0
(Master Mode)
Bit
Name
Attribute
15-4
Rsvd
RO
3
MSK
R/W
2-0
PR[2:0]
R/W
Description
Reserved
Mask.
Set 1: Mask the interrupt source for asynchronous serial port 0.
Set 0: Enable serial port 0 interrupts.
Priority. These bits determine the priority of the serial port relative to the other
interrupt signals.
The priority selection:
PR[2:0]
Priority
000
(High) 0
001
1
010
2
011
3
100
4
101
5
110
6
111
(Low) 7
Register Offset:
42h
Register Name:
Serial Port 1 Interrupt Control Register
Reset Value
0000Fh
15
14
:
13
12
11
10
9
8
7
6
5
4
Reserved
3
2
1
0
MSK
PR2
PR1
PR0
(Master Mode)
Bit
Name
Attribute
15-4
Rsvd
RO
Reserved
3
MSK
R/W
Mask.
Set 1: Mask the interrupt source for asynchronous serial port 1.
Set 0: Enable serial port 1 interrupts.
2-0
PR[2:0]
R/W
Priority. These bits determine the priority of the serial port relative to the other
R8822 Datasheet
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Description
51
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
interrupt signals.
The priority selection:
PR[2:0]
Priority
000
001
010
011
100
101
110
111
Register Offset:
40h
Register Name:
INT4 Control Register
Reset Value
000Fh
15
14
:
13
12
11
Reserved
10
9
(High) 0
1
2
3
4
5
6
(Low) 7
8
7
ETM
6
5
Reserved
4
3
2
1
0
LTM
MSK
PR2
PR1
PR0
(Master Mode)
Bit
Name
Attribute
Description
15-8
Rsvd
RO
7
ETM
R/W
6-5
Rsvd
RO
4
LTM
R/W
3
MSK
R/W
2-0
PR[2:0]
R/W
Reserved.
Edge-Triggered Mode enabled. When this bit is set to 1 and bit 4 set cleared to 0, an
interrupt is triggered by a low to high edge. The low to high edge will be latched (one
level) till this interrupt is serviced.
Reserved.
Level-Triggered Mode.
Set 1: An interrupt is triggered by the active-high level.
Set 0: An interrupt is triggered by the low to high edge.
Mask.
Set 1: Mask the interrupt source for INT4.
Set 0: Enable INT4 interrupts.
Interrupt Priority. These bit settings for priority selections are the same as those of
bit[2:0] in the 44h register.
52
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
3Eh
Register Name:
INT3 Control Register
Reset Value
000Fh
15
14
:
13
12
11
10
9
8
Reserved
7
ETM
6
5
Reserved
4
3
2
1
0
LTM
MSK
PR2
PR1
PR0
(Master Mode)
Bit
Name
Attribute
Description
15-8
Rsvd
RO
7
ETM
R/W
6-5
Rsvd
RO
4
LTM
R/W
3
MSK
R/W
2-0
PR[2:0]
R/W
Reserved
Edge-Triggered Mode enabled. When this bit is set to 1 and bit 4 set cleared to 0, an
interrupt is triggered by a low to high edge. The low to high edge will be latched (one
level) till this interrupt is serviced.
Reserved
Level-Triggered Mode.
Set 1: An interrupt is triggered by the active-high level.
Set 0: An interrupt is triggered by the low to high edge.
Mask.
Set 1: Mask the interrupt source for INT3.
Set 0: Enable INT3 interrupts.
Interrupt Priority. These bit settings for priority selections are the same as those of
bit[2:0] in the 44h register.
Register Offset:
3Ch
Register Name:
INT2 Control Register
Reset Value
000Fh
15
14
:
13
12
11
Reserved
10
9
8
7
ETM
6
5
Reserved
4
3
2
1
0
LTM
MSK
PR2
PR1
PR0
(Master Mode)
Bit
Name
Attribute
Description
15-8
Rsvd
RO
7
ETM
R/W
6-5
Rsvd
RO
4
LTM
R/W
3
MSK
R/W
2-0
PR[2:0]
R/W
Reserved.
Edge-Triggered Mode enabled. When this bit is set and bit 4 set cleared to 0, an
interrupt is triggered by a low to high edge. The low to high edge will be latched (one
level) till this interrupt is serviced.
Reserved
Level-Triggered Mode.
Set 1: An Interrupt is triggered by the active-high level.
Set 0: An interrupt is triggered by the low to high edge.
Mask.
Set 1: Mask the interrupt source for INT2.
Set 0: Enable INT2 interrupts.
Interrupt Priority.
These bit settings for priority selections are the same as those of bit[2:0] in the 44h
register.
R8822 Datasheet
Final Version 1.7
May 19, 2005
53
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
3Ah
Register Name:
INT1 Control Register
Reset Value
000Fh
15
14
:
13
12
11
10
9
8
Reserved
7
6
5
4
3
2
1
0
ETM
SFNM
C
LTM
MSK
PR2
PR1
PR0
(Master Mode)
Bit
Name
Attribute
Description
15-8
Rsvd
RO
7
ETM
R/W
6
SFNM
R/W
5
C
R/W
4
LTM
R/W
3
MSK
R/W
2-0
PR[2:0]
R/W
Reserved.
Edge-Triggered Mode enabled. When this bit is set and bit 4 set cleared to 0, an
interrupt is triggered by a low to high edge. The low to high edge will be latched (one
level) till this interrupt is serviced.
Special Fully Nested Mode.
Set 1: Enable the special fully nested mode for INT1
Cascade Mode.
Set 1: Enable the cascade mode for INT1 or INT0.
Level-Triggered Mode.
Set 1: An Interrupt is triggered by the active-high level.
Set 0: An interrupt is triggered by the low to high edge.
Mask.
Set 1: Mask the interrupt source for INT1.
Set 0: Enable INT1 interrupts.
Interrupt Priority.
These bit settings for priority selections are the same as those of bit[2:0] in the 44h
register.
Register Offset:
3Ah
Register Name:
Timer 2 Interrupt Control Register
Reset Value
000Fh
15
14
:
13
12
11
10
9
8
7
6
5
4
Reserved
3
2
1
0
MSK
PR2
PR1
PR0
(Slave Mode)
Bit
Name
Attribute
15-4
Rsvd
RO
3
MSK
R/W
2-0
PR[2:0]
R/W
54
Description
Reserved.
Mask.
Set 1: Mask the interrupt source for Timer 2.
Set 0: Enable Timer 2 interrupts.
Interrupt Priority.
These bit settings for priority selections are the same as those of bit[2:0] in the 44h
register.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
38h
Register Name:
INT0 Control Register
Reset Value
000Fh
15
14
:
13
12
11
10
9
8
Reserved
7
6
5
4
3
2
1
0
ETM
SFNM
C
LTM
MSK
PR2
PR1
PR0
(Master Mode)
Bit
Name
Attribute
Description
15-8
Rsvd
RO
7
ETM
R/W
6
SFNM
R/W
5
C
R/W
4
LTM
R/W
3
MSK
R/W
2-0
PR[2:0]
R/W
Reserved.
Edge-Triggered Mode enabled. When this bit is set and bit 4 set cleared to 0, an
interrupt is triggered by a low to high edge. The low to high edge will be latched (one
level) till this interrupt is serviced.
Special Fully Nested Mode.
Set 1: Enable the special fully nested mode for INT0
Cascade Mode.
Set 1: Enable the cascade mode for INT1 or INT0.
Level-Triggered Mode.
Set 1: An Interrupt is triggered by the active-high level.
Set 0: An interrupt is triggered by the low to high edge.
Mask.
Set 1: Mask the interrupt source for INT0.
Set 0: Enable INT0 interrupts.
Interrupt Priority.
These bit settings for priority selections are the same as those of bit[2:0] in the 44h
register.
Register Offset:
38h
Register Name:
Timer 1 Interrupt Control Register
Reset Value
0000h
15
14
:
13
12
11
10
9
8
7
6
5
4
Reserved
3
2
1
0
MSK
PR2
PR1
PR0
(Slave Mode)
Bit
Name
Attribute
15-4
Rsvd
RO
3
MSK
R/W
2-0
PR[2:0]
R/W
R8822 Datasheet
Final Version 1.7
May 19, 2005
Description
Reserved.
Mask.
Set 1: Mask the interrupt source for Timer 1.
Set 0: Enable Timer 1 interrupts.
Interrupt Priority.
These bit settings for priority selections are the same as those of bit[2:0] in the 44h
register.
55
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
36h
Register Name:
DMA1/INT6 Interrupt Control Register
Reset Value
000Fh
:
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
0
0
0
0
0
0
0
0
0
0
0
0
0
MSK
PR2
PR1
PR0
(Master Mode)
Bit
Name
Attribute
15-4
Rsvd
RO
3
MSK
R/W
2-0
PR[2:0]
R/W
Description
Reserved.
Mask.
Set 1: Mask the interrupt source for the DMA1 controller.
Set 0: Enable DMA1 interrupts.
Interrupt Priority.
These bit settings for priority selections are the same as those of bit[2:0] in the 44h
register.
Register Offset:
36h
Register Name:
DMA1/INT6 Interrupt Control Register
Reset Value
0000h
:
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
0
0
0
0
0
0
0
0
0
0
0
0
0
MSK
PR2
PR1
PR0
(Slave Mode)
Bit
Name
Attribute
15-4
Rsvd
RO
3
MSK
R/W
2-0
PR[2:0]
R/W
56
Description
Reserved.
Mask.
Set 1: Mask the interrupt source for the DMA 1 controller.
Set 0: Enable DMA1 interrupts.
Interrupt Priority.
These bit settings for priority selections are the same as those of bit[2:0] in the 44h
register.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
34h
Register Name:
DMA0/INT5 Interrupt Control Register
Reset Value
000Fh
:
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
0
0
0
0
0
0
0
0
0
0
0
0
0
MSK
PR2
PR1
PR0
(Master Mode)
Bit
Name
Attribute Description
15-4
Rsvd
RO
3
MSK
R/W
2-0
PR[2:0]
R/W
Reserved.
Mask.
Set 1: Mask the interrupt source for the DMA 0 controller.
Set 0: Enable DMA0 interrupts.
Interrupt Priority.
These bit settings for priority selections are the same as those of bit[2:0] in the 44h
register.
Register Offset:
34h
Register Name:
DMA0/INT5 Interrupt Control Register
Reset Value
0000h
:
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
0
0
0
0
0
0
0
0
0
0
0
0
0
MSK
PR2
PR1
PR0
(Slave Mode)
Bit
Name
15-4
Rsvd
Attribute Description
RO
3
MSK
R/W
2-0
PR[2:0]
R/W
R8822 Datasheet
Final Version 1.7
May 19, 2005
Reserved.
Mask.
Set 1: Mask the interrupt source for the DMA 0 controller.
Set 0: Enable DMA0 interrupts.
Interrupt Priority.
These bit settings for priority selections are the same as those of bit[2:0] in the 44h
register.
57
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
32h
Register Name:
Timer Interrupt Control Register
Reset Value
000Fh
:
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
0
0
0
0
0
0
0
0
0
0
0
0
0
MSK
PR2
PR1
PR0
(Master Mode)
Bit
Name
Attribute
15-4
Rsvd
RO
3
MSK
R/W
2-0
PR[2:0]
R/W
Description
Reserved
Mask.
Set 1: Mask the interrupt sources for timer controllers.
Set 0: Enable interrupts for timer controllers.
Interrupt Priority.
These bit settings for priority selections are the same as those of bit[2:0] in the 44h
register.
Register Offset:
32h
Register Name:
Timer 0 Interrupt Control Register
Reset Value
000Fh
:
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
0
0
0
0
0
0
0
0
0
0
0
0
0
MSK
PR2
PR1
PR0
(Slave Mode)
Bit
Name
Attribute
15-4
Rsvd
RO
3
MSK
R/W
2-0
PR[2:0]
R/W
58
Description
Reserved.
Mask.
Set 1: Mask the interrupt source for the Timer 0 controller.
Set 0: Enable Timer 0 interrupts.
Interrupt Priority.
These bit settings for priority selections are the same as those of bit[2:0] in the 44h
register.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
30h
Register Name:
Interrupt Status Register
Reset Value
:
----
13
12
15
14
11
10
DHLT
9
8
7
6
5
4
3
Reserved
2
1
0
TMR2
TMR1
TMR0
(Master Mode)
Bit
Name
Attribute
15
DHLT
RO
14-3
Rsvd
RO
Description
DMA Halt.
Set 1: Halt any DMA activity when non-maskable interrupts occur.
Set 0: When an IRET instruction is executed.
Reserved.
2-0
TMR[2:0]
R/W
Set 1: Indicate that the corresponding timer has an interrupt request pending.
Register Offset:
30h
Register Name:
Interrupt Status Register
Reset Value
0000h
15
14
:
13
12
11
DHLT
10
9
8
Reserved
7
6
5
4
3
2
1
0
TMR2
TMR1
TMR0
(Slave Mode)
Bit
Name
Attribute
15
DHLT
RO
14-3
Rsvd
RO
Description
DMA Halt.
Set 1: Halt any DMA activity when non-maskable interrupts occur.
Set 0: When an IRET instruction is executed.
Reserved.
2-0
TMR[2:0]
R/W
Set 1: Indicate that the corresponding timer has an interrupt request pending.
R8822 Datasheet
Final Version 1.7
May 19, 2005
59
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
2Eh
Register Name:
Interrupt Request Register
Reset Value
:
----
13
12
15
14
11
Reserved
10
9
8
7
6
5
4
SP0
SP1
I4
I13
1I2
1I1
1I0
3
2
D1/I61 D0/I5
1
0
Rsvd
TMR
(Master Mode)
The Interrupt Request register is a read-only register. For internal interrupts (SP0, SP1, D1/I6, D0/I5 and
TMR), the corresponding bit is set to 1 when the device requests an interrupt. The bit is reset during the internally
generated interrupt acknowledge. For INT4-INT0 external interrupts, the corresponding bits (I[4:0]) reflect the
current values of the external signals.
Bit
Name
Attribute Description
15-11
Rsvd
RO
Reserved.
10
SP0
RO
Serial Port 0 Interrupt Request. Indicates the interrupt status of serial port 0.
9
SP1
RO
Serial Port 1 Interrupt Request. Indicates the interrupt status of serial port 1.
8-4
1I[4:10]
R/WRO
3-2
D1/1I6
D0/I5
1
Rsvd
RO
0
TMR
R/WRO
Interrupt Requests.
Set 1: The corresponding INT pin has an interrupt pending.
DMA Channel or INT Interrupt Request.
R/WRO
Set 1: The corresponding DMA channel or INT has an interrupt pending.
Reserved.
Timer Interrupt Request.
Set 1: The timer control unit has an interrupt pending.
Register Offset:
2Eh
Register Name:
Interrupt Request Register
Reset Value
0000h
15
14
:
13
12
11
10
Reserved
9
8
7
6
5
4
3
2
1TMR2 1TRM1 D1/I61 D0/I5
1
0
Rsvd
TMR0
(Slave Mode)
The Interrupt Request register is a read-only register. For internal interrupts (D1/I6, D0/I5, TMR2, TMR1 and
TMR0), the corresponding bit is set to 1 when the device requests an interrupt. The bit is reset during the internally
generated interrupt acknowledge.
60
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
Bit
Name
15-6
Rsvd
RO
1
Rsvd
RO
0
TMR0
R/WRO
6-4
3-2
16-Bit RISC Micro-controller
Attribute Description
Reserved.
Timer2/Timer1 Interrupt Request.
1TMR[2:
R/WRO Set 1: Indicates the state of any interrupt requests from the associated timer.
11]
DMA Channel or INT Interrupt Request.
D1/I6
R/WRO
D0/I5
Set 1: The corresponding DMA channel or INT has an interrupt pending.
Reserved.
Timer0 Interrupt Request.
Set 1: Indicates the state of an interrupt request from Timer 0.
Register Offset:
2Ch
Register Name:
Interrupt In-Service Register
Reset Value
0000h
15
14
:
13
12
Reserved
11
10
9
8
7
6
5
4
SP0
SP1
I4
1I3
1I2
1I1
1I0
3
2
D1/1I6 D0/1I5
1
0
Rsvd
TMR
(Master Mode)
In this Register, bits are set by the interrupt controller when the interrupt is taken and cleared by writing the
corresponding interrupt type to the EOI register.
Bit
Name
Attribute
15-11
Rsvd
RO
10
SP0
RO
9
SP1
RO
8-4
1I[4:10]
RO
3-2
D1/1I6 –
D0/1I5
RO
1
Rsvd
RO
0
TMR
RO
R8822 Datasheet
Final Version 1.7
May 19, 2005
Description
Reserved.
Serial Port 0 Interrupt In-Service.
Set 1: The serial port 0 interrupt is currently being serviced.
Serial Port 1 Interrupt In-Service.
Set 1: The serial port 1 interrupt is currently being serviced.
Interrupt In-Service.
Set 1: The corresponding INT interrupt is currently being serviced.
DMA Channel or INT Interrupt In-Service.
Set 1:The corresponding DMA channel or INT interrupt is currently being serviced.
Reserved.
Timer Interrupt In-Service.
Set 1: The timer interrupt is currently being serviced.
61
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
2Ch
Register Name:
Interrupt In-Service Register
Reset Value
0000h
15
14
:
13
12
11
10
9
Reserved
8
7
6
5
4
3
2
TMR2 TMR1 D1/16 D0/15
1
0
Rsvd
TMR0
(Slave Mode)
In this Register, bits are set by the interrupt controller when the interrupt is taken and cleared by writing the
corresponding interrupt type to the EOI register.
Bit
Name
Attribute
15-6
Rsvd
RO
5-4
TMR[2:1]
Ro
3-2
D1/1I6 –
D0/1I5
RO
1
Rsvd
RO
0
TMR0
RO
62
Description
Reserved.
Timer2/Timer1 Interrupt In-Service.
Set 1: The corresponding timer interrupt is currently being serviced.
DMA Channel or INT Interrupt In-Service.
Set 1: The corresponding DMA Channel or INT Interrupt is currently being serviced.
Reserved.
Timer 0 Interrupt In-Service.
Set 1: The Timer 0 interrupt is currently being serviced.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
2Ah
Register Name:
Interrupt Priority Mask Register
Reset Value
0007h
:
15
14
13
12
11
10
9
8
7
6
5
4
3
0
0
0
0
0
0
0
0
0
0
0
0
0
2
1
0
PRM2 PRM1 PRM0
(Master Mode) It determines the minimum priority level at which maskable interrupts can generate interrupts.
Bit
Name
Attribute
15-3
Rsvd
RO
Reserved.
R/W
Priority Field Mask, It determines the minimum priority that is required in order for a
maskable interrupt source to generate an interrupt.
Priority
PR[2:0]
000
(High) 0
001
1
010
2
011
3
100
4
101
5
110
6
111
(Low) 7
2-0
PRM[2:0]
Description
Register Offset:
2Ah
Register Name:
Interrupt Priority Mask Register
Reset Value
0007h
:
15
14
13
12
11
10
9
8
7
6
5
4
3
0
0
0
0
0
0
0
0
0
0
0
0
0
2
1
0
PRM2 PRM1 PRM0
(Slave Mode) It determines the minimum priority level at which maskable interrupts can generate interrupts.
Bit
Name
Attribute
15-3
Rsvd
RO
Reserved.
R/W
Priority Field Mask, It determines the minimum priority that is required in order for a
maskable interrupt source to generate an interrupt.
Priority
PR[2:0]
000
(High) 0
001
1
010
2
011
3
100
4
101
5
110
6
111
(Low) 7
2-0
PRM[2:0]
R8822 Datasheet
Final Version 1.7
May 19, 2005
Description
63
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
28h
Register Name:
Interrupt Mask Register
Reset Value
07FD0h
15
14
:
13
12
11
Reserved
10
9
8
7
6
5
4
SP0
SP1
I4
1I3
1I2
1I1
1I0
3
2
D1/1I6 D0/1I5
1
0
Rsvd
TMR
(Master Mode)
Bit
Name
Attribute
15-11
Rsvd
RO
10
SP0
RO
9
SP1
RO
8-4
I[4:0]
RO
3-2
D1/1I6 –
D0/1I5
RO
1
Rsvd
RO
0
TMR
RO
Description
Reserved.
Serial Port 0 Interrupt Mask.
It indicates the state of the mask bit for the asynchronous serial port 0 interrupt.
Serial Port 1 Interrupt Mask.
It indicates the state of the mask bit for the asynchronous serial port 1 interrupt.
Interrupt Masks.
They indicate the states of the mask bits for the corresponding interrupts.
DMA Channel or INT Interrupt Masks.
They indicate the states of the mask bits for the corresponding DMA channel or INT
interrupts.
Reserved.
Timer Interrupt Mask.
It indicates the state of the mask bit for the timer control unit.
Register Offset:
28h
Register Name:
Interrupt Mask Register
Reset Value
0030Dh
15
14
:
13
12
11
10
Reserved
9
8
7
6
5
4
3
2
TMR2 TMR1 D1/1I6 D0/1I5
1
0
Rsvd
TMR0
(Slave Mode)
Bit
Name
Attribute
Description
15-6
Rsvd
RO
5-4
TMR[2:1]
RO
3-2
D1/1I6 –
D0/1I5
RO
Reserved.
Timer2/Timer1 Interrupt Mask.
They indicate the states of the mask bits in the Timer Interrupt Control Register.
Set 1: Timer2 or Time1 has its interrupt requests masked
DMA Channel or INT Interrupt Masks.
They indicate the states of the mask bits in the corresponding DMA or INT6/INT5
Control Registers.
1
Rsvd
RO
Reserved.
0
TMR0
RO
Timer0 Interrupt Mask.
It indicates the state of the mask bit in the Timer Interrupt Control Register
64
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
26h
Register Name:
Interrupt Poll Status Register
Reset Value
:
──
13
12
15
14
11
IREQ
10
9
8
7
6
5
4
3
Reserved
2
1
0
S[4:0]
(Master Mode)
The Interrupt Poll Status Register mirrors the current state of the Interrupt Poll Register. This register can
be read without affecting the current interrupt requests.
Bit
Name
Attribute
Description
Interrupt Request.
Set 1: if an interrupt is pending. The S[4:0] field contains valid data.
15
IREQ
R/W
14-5
Rsvd
RO
Reserved.
4-0
S[4:0]
R/W
Poll Status.
It indicates the interrupt type of the highest priority pending interrupts.
Register Offset:
24h
Register Name:
Interrupt Poll Register
Reset Value
:
──
13
12
15
14
IREQ
11
10
9
8
7
6
5
4
Reserved
3
2
1
0
S[4:0]
(Master Mode)
When the Interrupt Poll Register is read, the current interrupt is acknowledged and the next interrupt
takes its place in the Interrupt Poll Register.
Bit
Name
Attribute
15
IREQ
R/W
Interrupt Request.
Set 1: if an interrupt is pending. The S[4:0] field contains valid data.
14-5
Rsvd
RO
Reserved.
4-0
S[4:0]
R/W
Poll Status.
It indicates the interrupt type of the highest priority pending interrupts.
R8822 Datasheet
Final Version 1.7
May 19, 2005
Description
65
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
22h
Register Name:
End-of-Interrupt Register
Reset Value
:
----
13
12
15
14
11
NSPEC
10
9
8
7
6
5
4
3
Reserved
2
1
0
S[4:0]
(Master Mode)
Bit
Name
15
NSPEC
14-5
Rsvd
4-0
S[4:0]
Description
Attribute
Non-Specific EOI.
Set 1: indicates the non-specific EOI.
Set 0: indicates the specific EOI interrupt type in S[4:0].
Reserved.
RO
Source EOI Type.
R/WWO
It specifies the EOI type of the interrupt that is currently being processed.
R/W
Note: We suggest that the specific EOI is the most secure method to use for resetting the In-Service bit.
Register Offset:
22h
Register Name:
Specific End-of-Interrupt Register
Reset Value
0000h
:
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
L2
L1
L0
(Slave Mode)
Bit
Name
Attribute
15-3
Rsvd
RO
2-0
L[2:0]
RWO
66
Description
Reserved.
Interrupt Type.
The encoded value indicates the priority of the IS (interrupt service) bit to be reset.
Writes to these bits cause an EOI issued for the interrupt type in slave mode.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
20h
Register Name:
Interrupt Vector Register
Reset Value
0000h
:
15
14
13
12
11
10
9
8
0
0
0
0
0
0
0
0
7
6
5
4
T[4:0]
3
2
1
0
0
0
0
(Slave Mode)
Bit
Name
Attribute
Description
15-8
Rsvd
RO
Reserved.
7-3
T[4:0]
R/W
Interrupt Types.
The following interrupt types in slave mode can be programmed.
Timer 2 interrupt controller: (T4, T3, T2, T1, T0, 1, 0, 1) b.
Timer 1 interrupt controller: (T4, T3, T2, T1, T0, 1, 0, 0) b.
DMA 1 interrupt controller: (T4, T3, T2, T1, T0, 0, 1, 1) b.
DMA 0 interrupt controller: (T4, T3, T2, T1, T0, 0, 1, 0) b.
Timer 0 interrupt controller: (T4, T3, T2, T1, T0, 0, 0, 0) b.
2-0
Rsvd
RO
Reserved.
R8822 Datasheet
Final Version 1.7
May 19, 2005
67
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R8822
RISC DSP Communication
16-Bit RISC Micro-controller
14. DMA Unit
The DMA controller provides the data transfers between the memory and peripherals without the intervention
of the CPU. There are two DMA channels in the DMA unit. Each channel can accept DMA requests from one of
three sources: external pins (DRQ0 for channel 0 or DRQ1 for channel 1), serial ports (port 0 or port 1), or Timer 2
overflow. The data transfers from sources to destinations can be memory to memory, memory to I/O, I/O to I/O, or
I/O to memory. Either bytes or words can be transferred to or from even or odd addresses and two bus cycles are
necessary (reads from sources and writes to destinations) for each data transfer.
20-bit Adder/Subtractor
Adder Control
Logic
CAH.4-Channel 0
TDRQ
DAH.4-Channel 1
20 bit
Timer 2 Request
C8h-Transfer Counter Channel 0
C2h,C0h-Source Address Channel 0
C6h,C4h-Destination Address Channel 0
D8h-Transfer Counter Channel 1
DMA
Control
Logic
DRQ0
Request
Arbitration
Logic
DRQ1
Serial Port0
Serial Port1
D2h,D0h-Source Address Channel 1
Interrupt Request
D6h,D4h-Destination Address Channel 1
CAh.8-Channel 0
INT
DAh.8-Channel 1
Channel Control Register0,CAh
20 bit
Channel Control Register1,DAh
16 bit
Internal Address/Data Bus
DMA Unit Block
14.1
DMA Operation
Every DMA transfer consists of two bus cycles (see figure of Typical DMA Transfers). These two bus cycles
cannot be separated by a bus hold request, a refresh request or another DMA request. Registers CAh, C8h, C6h,
C4h, C2h, C0h, DAh, D8h, D6h, D4h, D2h and D0h are used to configure and operate the two DMA channels.
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R8822
RISC DSP Communication
16-Bit RISC Micro-controller
T1
T2
T3
T4
T1
T2
T3
T4
CLKOUTA
ALE
A[19:0]
Address
AD[15:0]
Address
Data
Address
Data
Address
RD_n
WR_n
Typical DMA Trarsfers
Register Offset:
CAh (DMA0)
Register Name:
DMA0 Control Register
Reset Value
FFF9h0000h
15
14
DM/IO_n DDEC
:
13
12
11
DINC SM/IO_n SDEC
Bit
Name
Attribute
15
DM/IO_n
R/W
14
DDEC
R/W
13
DINC
R/W
12
SM/IO_n
R/W
R8822 Datasheet
Final Version 1.7
May 19, 2005
10
9
8
7
6
5
4
3
2
1
0
SINC
TC
INT
SYN1
SYN0
P
TDRQ
EXT
CHG
ST
B_n/W
Description
Destination Address Space Select.
Set 1: The destination address is in memory space.
Set 0: The destination address is in I/O space.
Destination Decrement.
Set 1: The destination address is automatically decremented after each transfer.
The B_n/W (bit 0) bit determines the decremented value is by 1 or 2. When
both the DDEC and DINC bits are set to the same value (1 or 0), the
address remains constant.
Set 0: Disable the decrement function.
Destination Increment.
Set 1: The destination address is automatically incremented after each transfer.
The B_n/W (bit 0) bit determines the incremented value is by 1 or 2.
Set 0: Disable the increment function.
Source Address Space Select.
69
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70
R8822
RISC DSP Communication
11
SDEC
R/W
10
SINC
R/W
9
TC
R/W
8
INT
R/W
7-6
SYN[1:0]
R/W
5
P
R/W
4
TDRQ
R/W
3
RsvdEXT
RO/W
2
CHG
R/W
1
ST
R/W
0
B_n/W
R/W
16-Bit RISC Micro-controller
Set 1: The Source address is in memory space.
Set 0: The Source address is in I/O space.
Source Decrement.
Set 1: The Source address is automatically decremented after each transfer. The
B_n/W (bit 0) bit determines the decremented value is by 1 or 2. When both
the SDEC and SINC bits are set to the same value (1 or 0), the address
remains constant.
Set 0: Disable the decrement function.
Source Increment.
Set 1: The Source address is automatically incremented after each transfer. The
B_n/W (bit 0) bit determines the incremented value is by 1 or 2.
Set 0: Disable the increment function.
Terminal Count.
Set 1: Synchronized DMA transfers terminate when the DMA Transfer Count
Register reaches 0.
Set 0: Synchronized DMA transfers do not terminate when the DMA Transfer
Count Register reaches 0.
Unsynchronized DMA transfers always terminate when the DMA transfer
count register reaches 0, regardless of the setting of this bit.
Interrupt.
Set 1: The DMA unit generates an interrupt request on completion of the transfer
count.
The TC bit must be set to 1 to generate an interrupt.
Synchronization Type Selection.
SYN1 , SYN0 -- Synchronization Type
0 , 0
-- Unsynchronized
0 , 1
-- Source synchronized
1 , 0
-- Destination synchronized
1 , 1
-- Reserved
Priority.
Set 1: It selects high priority for this channel when both DMA 0 and DMA 1 are
transferred at the same time.
Timer Enable/Disable Request.
Set 1: Enable the DMA requests from Timer 2.
Set 0: Disable the DMA requests from Timer 2.
External IReservednterrupt Enable bit.
Set 1: The external pin functions as an interrupt pin (The DMA 0 function is
disabled.)
Set 0: The external pin functions as a DRQ pin.
Changed Start bit.
This bit must be set to 1 when the ST bit is modified.
Start/Stop DMA channel.
Set 1: Start the DMA channel
Set 0: Stop the DMA channel
Byte/Word Select.
Set 1: Word select. The address is incremented or decremented by 2 after each
transfer.
Set 0: Byte select. The address is incremented or decremented by 1 after each
transfer.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822 Datasheet
Final Version 1.7
May 19, 2005
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
71
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R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
C8h (DMA0)
Register Name:
DMA0 Transfer Count Register
Reset Value
0000h
15
14
:
13
12
11
10
9
8
7
6
5
4
3
2
1
0
TC[15:0]
Bit
Name
Attribute
15-0 TC[15:0]
R/W
Description
DMA0 Transfer Count.
The value of this register will be decremented by 1 after each transfer.
Register Offset:
C6h (DMA0)
Register Name:
DMA0 Destination Address High Register
Reset Value
:
-----
13
12
15
14
11
10
9
8
7
6
5
4
3
Reserved
2
1
0
DDA[19:16]
Bit
Name
Attribute
Description
15-4
Rsvd
RO
3-0
DDA[19:16]
R/W
Reserved
High DMA 0 Destination Address.
These bits are mapped to A[19:16] during a DMA transfer when the destination
address is in memory or I/O space. If the destination address is in I/O space (64K
bytes), these bits must be programmed to 0000b.
Register Offset:
C4h (DMA0)
Register Name:
DMA0 Destination Address Low Register
Reset Value
:
-----
13
12
15
14
11
10
9
8
7
6
5
4
3
2
1
0
DDA[15:0]
Bit
Name
15-0 DDA[15:0]
72
Attribute
Description
R/W
Low DMA0 Destination Address.
These bits are mapped to A[15:0] during a DMA transfer.
The value of DDA [19:0] will be incremented or decremented by 2 or 1 after each
DMA transfer.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
C2h (DMA0)
Register Name:
DMA0 Source Address High Register
Reset Value
:
-----
13
12
15
14
11
10
9
8
7
6
5
4
3
Reserved
2
1
0
DSA[19:16]
Bit
Name
Attribute
Description
15-4
Rsvd
RO
3-0
DSA[19:16]
R/W
Reserved
High DMA0 Source Address.
These bits are mapped to A[19:16] during a DMA transfer when the source
address is in memory or I/O space. If the source address is in I/O space (64K
bytes), these bits must be programmed to 0000b
Register Offset:
C0h (DMA0)
Register Name:
DMA0 Source Address Low Register
Reset Value
:
-----
13
12
15
14
11
10
9
8
7
6
5
4
3
2
1
0
DSA[15:0]
Bit
Name
15-0 DSA[15:0]
Attribute
Description
R/W
Low DMA0 Source Address.
These bits are mapped to A[15:0] during a DMA transfer.
The value of DSA [19:0] will be incremented or decremented by 2 or 1 after each
DMA transfer.
Register Offset:
DAh (DMA1)
Register Name:
DMA1 Control Register
Reset Value
FFF9h0000h
15
14
DM/IO_n DDEC
:
13
12
11
DINC SM/IO_n SDEC
10
9
8
7
6
5
4
3
2
1
0
SINC
TC
INT
SYN1
SYN0
P
TDRQ
EXT
CHG
ST
B_n/W
The definitions of bit[15:0] for DMA 1 are the same as those of bit[15:0] in Register CAh for DMA0.
R8822 Datasheet
Final Version 1.7
May 19, 2005
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RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
D8h (DMA1)
Register Name:
DMA1 Transfer Count Register
Reset Value
0000h
15
14
:
13
12
11
10
9
8
7
6
5
4
3
2
1
0
TC[15:0]
Bit
Name
Attribute
15-0
TC[15:0]
R/W
Description
DMA 1 transfer Count.
The value of this register will be decremented by 1 after each transfer.
Register Offset:
D6h (DMA1)
Register Name:
DMA1 Destination Address High Register
Reset Value
:
-----
13
12
15
14
11
10
9
8
7
6
5
4
3
Reserved
Bit
Name
Attribute
15-4
Rsvd
RO
3-0
DDA[19:16]
R/W
0
Description
Reserved
High DMA1 Destination Address.
These bits are mapped to A[19:16] during a DMA transfer when the destination
address is in memory or I/O space. If the destination address is in I/O space (64K
bytes), these bits must be programmed to 0000b.
D4h (DMA1)
Register Name:
DMA1 Destination Address Low Register
Reset Value
:
-----
13
12
14
1
DDA[19:16]
Register Offset:
15
2
11
10
9
8
7
6
5
4
3
2
1
0
DDA[15:0]
Bit
Name
15-0 DDA[15:0]
74
Attribute
R/W
Description
Low DMA 1 Destination Address.
These bits are mapped to A[15:0] during a DMA transfer. The value of DDA [19:0]
will be incremented or decremented by 2 or 1 after each DMA transfer.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
D2h (DMA1)
Register Name:
DMA1 Source Address High Register
Reset Value
:
-----
13
12
15
14
11
10
9
8
7
6
5
4
3
Reserved
2
1
0
DSA[19:16]
Bit
Name
Attribute
Description
15-4
Rsvd
RO
3-0
DSA[19:16]
R/W
Reserved
High DMA 1 Source Address.
These bits are mapped to A[19:16] during a DMA transfer when the source
address is in memory or I/O space. If the source address is in I/O space (64K
bytes), these bits must be programmed to 0000b.
Register Offset:
D0h (DMA1)
Register Name:
DMA1 Source Address Low Register
Reset Value
:
-----
13
12
15
14
11
10
9
8
7
6
5
4
3
2
1
0
DSA[15:0]
Bit
Name
15-0 DSA[15:0]
14.2
Attribute
Description
R/W
Low DMA1 Source Address.
These bits are mapped to A[15:0] during a DMA transfer. The value of DSA[19:0]
will be incremented or decremented by 2 or 1 after each DMA transfer.
External Requests
External DMA requests are asserted on the DRQ pins. The DRQ pins are sampled on the falling edge of
CLKOUTACLKOUTA. It takes a minimum of four clocks before the DMA cycle is initiated by the Bus Interface. The
DMA request is cleared four clocks before the end of the DMA cycle. No DMA acknowledge is provided, since the
chip-selects (MCSx_n and MCSx_n,PCSx_n) can be programmed to be active for a given block of memory or I/O
space, and the DMA source and destination address registers can be programmed to point to the same given
block.
DMA transfers can be either source- or destination-synchronized, and they can also be unsynchronized. The
Source-Synchronized Transfers figure shows the typical source-synchronized transfers which provide the source
device at least three clock cycles from the time it is acknowledged to de-assert its DRQ line.
R8822 Datasheet
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May 19, 2005
75
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Fetch Cycle
T1
T2
T3
Fetch Cycle
T4
T1
T2
T3
T4
CLKOUTA
DRQ(Case1)
DRQ(Case2)
NOTES:
Case1 : The current source synchronized transfer will not be immediately
followed by another DMA transfer.
Case2 : The current source synchronized transfer will be immediately
followed by antoher DMA transfer.
Source-Synchronized Transfers
The Destination-Synchronized Transfers figure shows the typical destination-synchronized transfer which
differs from a source-synchronized transfer in which two idle states are added to the end of the deposit cycle. The
two idle states extend the DMA cycle to allow the destination device to de-assert its DRQ pin four clocks before the
end of the cycle. If the two idle states were not inserted, the destination device would not have time to de-assert its
DRQ signal.
Fetch Cycle
T1
T2
T3
Fetch Cycle
T4
T1
T2
T3
T4
TI
TI
CLKOUTA
DRQ(Case1)
DRQ(Case2)
NOTES:
Case1 : The current destination synchronized transfer will not be immediately
followed by another DMA transfer.
Case2 : The current destination synchronized transfer will be immediately
followed by another DMA transfer.
Destination-Synchronized Transfers
76
R8822 Datasheet
Final Version 1.7
May 19, 2005
Fetch Cycle
RDC
®
T1
T2
T3
Fetch Cycle
T4
T1
T2
RISCCLKOUTA
DSP Communication
T3
T4
R8822
16-Bit RISC Micro-controller
DRQ(Case1)
DRQ(Case2)
NOTES:
Case1 : Current source synchronized transfer will not be immediately
followed by another DMA transfer.
Case2 : Current source synchronized transfer will be immediately
followed by antoher DMA transfer.
Source-Synchronized Transfers
R8822 Datasheet
Final Version 1.7
May 19, 2005
77
RDC®
14.3
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Serial Port/DMA Transfers
Serial port data can be transferred to or from memory or I/O space via DMA. The B_n/W bit of the DMA
Control Register must be set to 0 for byte transfers. The map address of the Transmit Data Register is written to the
DMA Destination Address Register and the memory or I/O address to the DMA Source Address Register when the
data are transmitted. The mapped address of the Receive Data Register is written to the DMA Source Address
Register and the memory or I/O address to the DMA Destination Address Register when the data are received.
The Serial Port Control Register is programmed by software to perform the serial port/DMA transfers. When
a DMA channel is in use by a serial port, the corresponding external DMA request signal is de-activated. For DMA
transfers to the serial port, the DMA channel should be configured as being destination-synchronized. For DMA
transfers from the serial port, the DMA channel should be configured as being source-synchronized.
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Final Version 1.7
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RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
15. Timer Control Unit
TMRIN1 TMRIN0
Microprocessor Clock
50h,Timer 0 Count Register
TMROUT1
52h,54h,Timer0 Maxcount Compare Register
Counter
Element
&
Control
Logic
58h,Timer 1 Count Register
5Ah,5Ch,Timer 1 Maxcount Compare Register
60h,Timer 2 Count Register
TMROUT2
(Timer2)
DMA Request
(Timer0,1,2)
Interrupt Request
62h,Timer 2 Compare Register
16 bit
56h,Timer 0 Control Register
16 bit
5Eh,Timer 1 Control Register
66h,Timer 2 Control Register
16 bit
Internal Address/Data Bus
Timer / Counter Unit Block
There are three 16-bit programmable timers in the R8822. The timer operation is independent of the CPU.
These three timers can be programmed as timer elements or as counter elements. Timer 0 and 1 are each
connected to two external pins (TMRIN0, TMROUT0, TMRIN1 and TMROUT1), which can be used to count or time
external events, or used to generate variable-duty-cycle waveforms. Timer 2 is not connected to any external pins.
It can be used as a pre-scaler to Timer 0 and Timer 1 or as a DMA request source.
Register Offset:
56h
Register Name:
Timer 0 Mode/Control Register
Reset Value
0000h
:
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
0
EN
INH_n
INT
RIU
0
0
0
0
0
0
MC
RTG
P
EXT
ALT
CONT
Bit
Name
15
EN
14
INH_n
R8822 Datasheet
Final Version 1.7
May 19, 2005
Attribute Description
Enable bit.
Set 1: Timer 0 is enabled.
Set 0: Timer 0 is inhibited from counting.
R/W
The INH_n bit must be set to 1 when the EN bit is written, and both the INH_n and
EN bits must be in the same write.
Inhibit bit.
R/W
79
RDC®
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R8822
RISC DSP Communication
13
INT
R/W
12
RIU
R/W
11-6
Rsvd
RO
5
MC
R/W
4
RTG
R/W
3
P
R/W
2
EXT
R/W
1
ALT
R/W
0
CONT
R/W
16-Bit RISC Micro-controller
This bit allows selectively updating the EN bit. The INH_n bit must be set to 1 when
the EN bit is written, and both the INH_n and EN bits must be in the same write. This
bit is not stored and always read as 0.
Interrupt bit.
Set 1: An interrupt request is generated when the count register equals a maximum
count. If the timer is configured in dual max-count mode, an interrupt is
generated each time when the count reaches Max-Count A or Max-Count B.
Set 0: Timer 0 will not issue interrupt requests.
Register in Use bit.
Set 1: The Maxcount Compare B Register of Timer 0 is being used.
Set 0: The Maxcount Compare A Register of Timer 0 is being used.
Reserved
Maximum Count bit.
When the timer reaches its maximum count, the MC bit will be set to 1 by H/W. In
dual maxcount mode, this bit is set each time when either the Maxcount Compare A
or Maxcount Compare B register is reached. This bit is set regardless of the INT bit
(offset 56h.13).
Re-trigger bit. This bit defines the control function by the input signal of the TMRIN0
pin. When EXT=1 (56h.2), this bit is ignored.
Set 1: Timer 0 Count Register (50h) counts internal events; resets the counting on
every TMRIN0 input signal from low to high (rising edge trigger).
Set 0: Low input holds the Timer 0 Count Register (50h) value; high input enables the
counting which counts internal events.
The definitions of setting the (EXT, RTG)
(0, 0) – Timer 0 counts the internal events if the TMRIN0 pin remains high.
(0, 1) – Timer 0 counts the internal events; the count register is reset on every rising
transition on the TMRIN0 pin.
(1, x) – The TMRIN0 pin input functions as clock source and Timer 0 Count Register
is incremented by one every external clock.
Pre-scaler bit.
This bit and EXT (56h.2) define Timer 0 clock source.
The definitions of setting the (EXT, P)
(0, 0) – The Timer 0 Count Register is incremented by one every four internal
processor clock.
(0, 1) – The Timer 0 Count Register is incremented by one which is pre-scaled by
Timer 2.
(1, x) – The TMRIN0 pin input functions as clock source and the Timer 0 Count
Register is incremented by one every external clock.
External Clock bit.
Set 1: Timer 0 clock source from external events.
Set 0: Timer 0 clock source from system clock.
Alternate Compare bit. This bit controls whether the timer runs in single or dual
maximum count mode.
Set 1: Specify dual maximum count mode. In this mode, the timer counts to Maxcount
Compare A and resets the count register to 0. Then the timer counts to
Maxcount Compare B, resets the count register to 0 again, and starts over with
Maxcount Compare A.
Set 0: Specify single maximum count mode. In this mode, the timer counts to the
value contained in Maxcount Compare A and resets the count register to 0.
Then the timer counts to Maxcount Compare A again. Maxcount Compare B is
not used in this mode.
Continuous Mode bit.
Set 1: The timer runs continuously.
Set 0: The timer will halt after each counting to the maximum count and the EN bit
will be cleared.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
50h
Register Name:
Timer 0 Count Register
Reset Value
:
-----
13
12
15
14
11
10
9
8
7
6
5
4
3
2
1
0
TC[15:0]
Attribute
Description
15-0 TC[15:0]
R/W
Timer 0 Count Value.
This register contains the current count of Timer 0. The count is incremented by one
every four internal processor clocks, pre-scaled by Timer 2, or incremented by one
every external clock which is through configuring the external clock select bit based
on the TMRIN0 signal.
Register Offset:
52h
Register Name:
Timer 0 Maxcount Compare A Register
Reset Value
:
-----
13
12
Bit
15
Name
14
11
10
9
8
7
6
5
4
3
2
1
0
3
2
1
0
TC[15:0]
Bit
Name
Description
Attribute
Timer 0 Compare A Value.
15-0 TC[15:0]
R/W
Register Offset:
54h
Register Name:
Timer 0 Maxcount Compare B Register
Reset Value
:
-----
13
12
15
14
11
10
9
8
7
6
5
4
TC[15:0]
Bit
Name
15-0 TC[15:0]
R8822 Datasheet
Final Version 1.7
May 19, 2005
Description
Attribute
R/W
Timer 0 Compare B Value.
81
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
5Eh
Register Name:
Timer 1 Mode/Control Register
Reset Value
0000h
:
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
0
EN
INH_n
INT
RIU
0
0
0
0
0
0
MC
RTG
P
EXT
ALT
CONT
3
2
1
0
These bit definitions for timer 1 are the same as those in Register 56h for timer 0.
Register Offset:
58h
Register Name:
Timer 1 Count Register
Reset Value
:
-----
13
12
15
14
11
10
9
8
7
6
5
4
TC[15:0]
Bit
Name
Attribute
Description
Timer 1 Count Value.
This register contains the current count of Timer 1. The count is incremented by one
every four internal processor clocks, pre-scaled by Timer 2, or incremented by one
every external clock which is through configuring the external clock select bit based
on the TMRIN1 signal.
15-0 TC[15:0]
R/W
Register Offset:
5Ah
Register Name:
Timer 1 Maxcount Compare A Register
Reset Value
:
-----
13
12
15
14
11
10
9
8
7
6
5
4
3
2
1
0
TC[15:0]
Bit
Name
15-0 TC[15:0]
82
Description
Attribute
R/W
Timer 1 Compare A Value.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
5Ch
Register Name:
Timer 1 Maxcount Compare B Register
Reset Value
:
-----
13
12
15
14
11
10
9
8
7
6
5
4
3
2
1
0
TC[15:0]
Bit
Name
Description
Attribute
Timer 1 Compare B Value.
15-0 TC[15:0]
R/W
Register Offset:
66h
Register Name:
Timer 2 Mode/Control Register
Reset Value
0000h
:
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
0
EN
INH_n
INT
0
0
0
0
0
0
0
MC
0
0
0
0
CONT
Bit
Name
Attribute
15
EN
R/W
14
INH_n
R/W
13
INT
R/W
12-6
Rsvd
RO
5
MC
R/W
4-1
Rsvd
RO
0
CONT
R/W
R8822 Datasheet
Final Version 1.7
May 19, 2005
Description
Enable bit.
Set 1: Timer 2 is enabled.
Set 0: Timer 2 is inhibited from counting.
The INH_n bit must be set to 1 when the EN bit is written, and both the INH_n and
EN bits must be in the same write.
Inhibit bit.
This bit allows selectively updating the EN bit. The INH_n bit must be set to 1 when
the EN bit is written, and both the INH_n and EN bits must be in the same write. This
bit is not stored and is always read as 0.
Interrupt bit.
Set 1: An interrupt request is generated when the count register equals a maximum
count.
Set 0: Timer 2 will not issue interrupt requests.
Reserved
Maximum Count bit.
When the timer reaches its maximum count, the MC bit will be set to 1 by H/W. This
bit is set regardless of the INT bit (66h.13).
Reserved
Continuous Mode bit.
Set 1: The timer is continuously running when it reaches the maximum count.
Set 0: The EN bit (66h.15) is cleared and the timer is held after each timer count
reaches the maximum count.
83
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
60h
Register Name:
Timer 2 Count Register
Reset Value
:
──
13
12
15
14
11
10
9
8
7
6
5
4
3
2
1
0
TC[15:0]
Bit
Name
Description
Timer 2 Count Value.
This register contains the current count of Timer 2. The count is incremented by one
every four internal processor clocks.
Attribute
15-0 TC[15:0]
R/W
Register Offset:
62h
Register Name:
Timer 2 Maxcount Compare A Register
Reset Value
:
──
13
12
15
14
11
10
9
8
7
6
5
4
3
2
1
0
TC[15:0]
Bit
Name
15-0 TC[15:0]
15.1
Attribute
R/W
Description
Timer 2 Compare A Value.
Timer/Counter Unit Output Mode
Timers 0 and 1 can use one maximum count value or two maximum count values. Timer 2 can use only one
maximum count value. Timer 0 and Timer 1 can be configured to be single or dual maximum count mode. The
TMROUT0 or TMROUT1 signals can be used to generate waveforms of various duty cycles.
Maxcount A
Maxcount B
Maxcount A
Maxcount B
Dual Maximum
Count Mode
Single Maximum
Count Mode
Maxcount A
1T
Maxcount A
1T
Maxcount A
* 1T:One Microprocessor clock
Timer/Counter Unit Output Modes
84
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
15.216.
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Watchdog Timer
The R8822 has one independent watchdog timer, which is programmable. The watchdog timer is active after
reset and the timeout count is with a maximum count value. The keyed sequence (3333h, CCCCh) must be written
to the register (E6h) first, then the new configuration to the Watchdog Timer Control Register. It is a single write, so
every write to the Watchdog Timer Control Register must follow this rule.
When the watchdog timer is active, an internal counter is counting. If this internal count is over the watchdog
timer duration, the watchdog timeout will happen. The keyed sequence (AAAAh, 5555h) must be written to the
register (E6h) to reset the internal count and prevent the watchdog timeout. The internal count should be reset
before the watchdog timer timeout period is modified to ensure that an immediate timeout will not occur.
Register Offset:
60hE6h
Register Name:
Timer 2 Count RegisterWatchdog Timer Control Register
Reset Value
──C080h
15
14
ENA
WRST
:
13
12
11
RSTFLAG NMIFLAG
Bit
Name
Attribute
15
ENA
R/W
14
WRST
R/W
13
RSTFLAG
R/W
12
NMIFLAG
R/W
11-8
Rsvd
RO
R8822 Datasheet
Final Version 1.7
May 19, 2005
10
9
Reserved
8
7
6
5
4
3
2
1
0
COUNT
Description
Enable the Watchdog Timer.
Set 1: Enable the watchdog timer.
Set 0: Disable the watchdog timer.
Watchdog Reset.
Set 1: The WDT generates a system reset when the WDT timeout count is
reached.
Set 0: The WDT will generate an NMI interrupt when the WDT timeout count is
reached if the NMIFLAG bit is 0. If the NMIFLAG bit is 1, the WDT will
generate a system reset when timeout.
Reset Flag.
When a watchdog timer reset event occurs, this bit will be set to 1 by hardware.
This bit will be cleared by any read from this register or through external reset.
This bit is 0 after an external reset or 1 after a watchdog timer reset.
NMI Status Flag
After the WDT generates an NMI interrupt, this bit will be set to 1 by H/W. This bit
will be cleared by any keyed sequence written to this register.
Reserved
85
RDC®
7-0
86
R8822
RISC DSP Communication
COUNT
R/W
16-Bit RISC Micro-controller
Timeout Count. The COUNT setting determines the duration of the watchdog
timer timeout interval.
Exponent
a. The duration equation: Duration =( 2
) / (Frequency/2)
b. The Exponent of the COUNT setting:
(bit 7, bit 6, bit 5, bit 4, bit 3, bit 2, bit 1, bit 0) = (Exponent)
( 0 , 0 , 0 , 0, 0 , 0 , 0 , 0 ) = (N/A)
( x , x , x , x, x , x , x , x 1) = ( 10 )
( x , x , x , x, x , x , 1 , 0 ) = ( 20 )
( x , x , x , x, x , 1 , 0 , 0 ) = ( 21 )
( x , x , x , x, 1 , 0 , 0 , 0 ) = ( 22 )
( x , x , x , 1, 0 , 0 , 0 , 0 ) = ( 23 )
( x , x , 1 , 0, 0 , 0 , 0 , 0 ) = ( 24 )
( x , 1 , 0 , 0, 0 , 0 , 0 , 0 ) = ( 25 )
( 1 , 0 , 0 , 0, 0 , 0 , 0 , 0 ) = ( 26 )
c. Watchdog timer duration reference table:
Frequency\
Exponent
10
20 MHz
25 MHz
33 MHz
40 MHz
51 us
40 us
30 us
25 us
20
21
52 ms 104 ms
41 ms 83 ms
31 ms 62 ms
26 ms 52 ms
22
23
209 ms
167 ms
125 ms
104 ms
419 ms
335 ms
251 ms
209 ms
24
25
838 ms 1.67 s
671 ms 1.34 s
503 ms 1.00 s
419 ms 838 ms
26
3.35 s
2.68 s
2.01 s
1.67 s
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
16.17. Asynchronous Serial Port
The R8822 has two asynchronous serial ports, which provide the TXD and RXD pins for the full duplex
bi-directional data transfers with handshaking signals CTS_n, ENRX_n, RTS_n and RTR_n. The serial ports
support: 9-bit, 8-bit or 7-bit data transfers; odd parities, even parities or no parity; 1 stop bit; error detection; DMA
transfers through the serial ports; multi-drop protocol (9-bit) support; double buffers for transmit and receive. The
receive/transmit clock is based on the microprocessor clock. The serial ports can be used in power-saved mode,
but the transfer rate must be adjusted to correctly reflect the new internal operating frequency. Software can
configure the asynchronous serial ports through programming the registers (80h, 82h, 84h, 86h and 88h – for port 0;
10h, 12h, 14h, 16h and18h – for port 1).
Internal Address/Data Bus
16 bit
16 bit
Transmit
Data Register(84h),(14h)
Receive
Data Register(86h),(16h)
16 bit
8 bit
8 bit
8 bit
TXD
Transmit
Shift Regoster
Transmit
Hold Register
Receive
Buffer
8 bit
Interrupt Request
RTS_n
ENRX_n
CTS_n
RTR_n
Control Register(80h),(10h)
Control
Logic
Receive Shift
Register
Status Register(82h),(12h)
Baud Rate
Divisor Register(88h),(18h)
RXD
Serial Port Block Diagram
17.1
Serial Port Flow Control
The two serial ports provide two data pins (RXD and TXD) and two flow control signals (RTS_n and
RTR_n). Hardware flow control is enabled when the FC bit in the Serial Port Control Register is set. The flow
control signals are configured by software to support several different protocols.
R8822 Datasheet
Final Version 1.7
May 19, 2005
87
RDC®
17.1.1
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
DCE/DTE Protocol
The R8822 can function as a DCE (Data Communication Equipment) or a DTE (Data Terminal Equipment).
This protocol provides flow control where one serial port is receiving data and the other serial port is sending data.
To implement the DCE device, the ENRX bit should be set and the RTS bit should be cleared for the associated
serial ports. To implement the DTE device, the ENRX bit should be cleared and the RTS bit should be set for the
associated serial ports. The ENRX and RTS bits are found in Register F2h.
The DCE/DTE protocol is asymmetric interface since the DTE device cannot signal the DCE device that it is
ready to receive data, and the DCE cannot send the requests to send signals.
ENRX_n
DCE
RTR_n
RTS_n
DTE
RTS_n:Request to send
CTS_n:Clear to send
RTR_n:Ready to receive
ENRX_n:Enable receiver request
CTS_n
DCE/DTE Protocol Connection
The DCE/DTE protocol communication steps:
a. DTE sends data to DCE
b. The RTS_n signal is asserted by the DTE when data is available.
c. The RTS_n signal interpreted by the DCE device functions as a request to enable its receiver.
d. The DCE asserts the RTR_n signal to response that the DCE is ready to receive data.
17.1.2
CTS/RTR Protocol
The serial ports can be programmed as CTS/RTS protocols by clearing both of the ENRX and RTS bits. This
protocol is a symmetric interface, which provides flow control when both of the ports are sending and receiving
data.
CTS_n
RTR_n
CTS_n:Clear to send
RTR_n:Ready to receive
RTR_n
CTS_n
CTS/RTR Protocol Connection
88
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
17.2
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
DMA Transfers to/from Serial Ports
DMA transfers to serial ports function as destination-synchronized DMA transfers. A new transfer is
requested when the Transmit Holding Register is empty. When a port is configured for DMA transmits, the
corresponding transmit interrupt is disabled regardless of the TXIE bit setting. DMA transfers from serial ports
function as source-synchronized DMA transfers. A new transfer is requested when the Receive Buffer contains
valid data. When a port is configured for DMA receives, the corresponding receive interrupt is disabled regardless
of the RXIE bit setting. The DMA request is generated internally when a DMA channel is used for serial port
transfers. DRQ0 or DRQ1 are not active when serial port DMA transfers occur. Hardware handshaking may be
used in conjunction with serial port DMA transfers.
17.3
Asynchronous Modes
There are 4 mode operations in the asynchronous serial ports.
Mode1: Mode 1 is an 8-bit asynchronous communications mode. Each frame consists of a start bit, eight data bits
and a stop bit. When parities are used, the eighth data bit becomes a parity bit.
Mode 2: Mode 2 is used together with Mode 3 for multiprocessor communications over a common serial link. In
mode 2, the RX machine will not complete a reception unless the ninth data bit is a one. Any character
received with the ninth bit equal to zero is ignored. No flags are set, no interrupts occur and no data are
transferred to the Receive Data Register. In mode 3, characters are received regardless of the state of
the ninth data bit.
Mode 3: Mode 3 is a 9-bit asynchronous communications mode. Mode 3 is the same as mode 1 except that a
frame contains nine data bits. The ninth data bit becomes a parity bit when the parity feature is enabled.
Mode 4: Mode 4 is a 7-bit asynchronous communications mode. Each frame consists of a start bit, seven data
bits and a stop bit. Parity bits are not available in mode 4.
R8822 Datasheet
Final Version 1.7
May 19, 2005
89
RDC®
R8822
RISC DSP Communication
Register Offset:
80h
Register Name:
Serial Port 0 Control Register
Reset Value
0000h
15
14
:
13
DMA
12
11
10
9
8
7
RISE
BRK
TB8
FC
TXIE
RXIE
Bit
Name
Attribute
15-13
DMA
R/W
12
RSIE
R/W
11
BRK
R/W
10
TB8
R/W
9
FC
R/W
8
TXIE
R/W
7
RXIE
R/W
6
TMODE
R/W
5
RMODE
R/W
4
EVN
R/W
90
16-Bit RISC Micro-controller
6
5
TMOD RMOD
E
E
4
3
EVN
PE
2
1
0
MODE
Description
DMA Control Field. With DMA transfers listed as follows, these bits can be configured
for serial port use.
DMA control bits
Transmit
(bit 15, bit 14, bit 13) --Receive --( 0, 0, 0 )
--- No DMA --No DMA
( 0, 0, 1 )
--DMA 0 --DMA 1
( 0, 1, 0 )
--DMA 1 --DMA 0
( 0, 1, 1 )
--N/A
--N/A
( 1, 0, 0 )
--DMA 0 --No DMA
( 1, 0, 1 )
--DMA 1 --No DMA
( 1, 1, 0 )
--- No DMA --DMA 0
( 1, 1, 1 )
--- No DMA --DMA 1
Receive Status Interrupt Enable.
It will generate an interrupt when an error is detected (frame error, parity error or
overrun error) or a break interrupt bit is received in serial port 0.
Set 1: Enable the serial port 0 to generate an interrupt request.
Send Break.
Set 1: The TXD pin is always driven low.
Long Break: The TXD pin is driven low for greater than (2M+3) bit times;
Short break: The TXD pin is driven low for greater than M bit times;
* M= start bit + data bit number + parity bit + stop bit
Transmit Bit 8. This bit is transmitted as the ninth data bit in mode 2 and mode 3. This
bit is cleared after every transmission.
Flow Control Enable.
Set 1: Enable the hardware flow control for serial port 0.
Set 0: Disable the hardware flow control for serial port 0.
Transmitter Ready Interrupt Enable.
When the Transmit Holding Register is empty (the THRE bit in the Status Register is
set), an interrupt will occur.
Set 1: Enable the Interrupt.
Set 0: Disable the interrupt.
Receive Data Ready Interrupt Enable.
When the receive buffer contains valid data (the RDR bit in Status Register is set), an
interrupt will be generated.
Set 1: Enable the Interrupt.
Set 0: Disable the interrupt.
Transmit Mode.
Set 1: Enable the TX machines.
Set 0: Disable the TX machines.
Receive Mode.
Set 1: Enable the RX machines.
Set 0: Disable the RX machines.
Even Parity.
This bit is valid only when the PE bit is set.
Set 1: The even parity checking is enforced (even number of 1s in frame).
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Set 0: Odd parity checking is enforced (odd number of 1s in frame).
3
2-0
PE
Parity Enable.
Set 1: Enable the parity checking.
Set 0: Disable the parity checking.
Modes of Operations.
(bit2, bit1, bit0)
MODE
( 0 , 0 , 1)
Mode 1
( 0 , 1 , 0)
Mode 2
( 0 , 1 , 1)
Mode 3
( 1 , 0 , 0)
Mode 4
R/W
MODE
R/W
Register Offset:
82h
Register Name:
Serial Port 0 Status Register
Reset Value
──-----
15
14
:
13
12
11
Reserved
Data Bits
7 or 8
9
8 or 9
7
Parity Bits
1 or 0
N/A
1 or 0
N/A
Stop Bits
1
1
1
1
10
9
8
7
6
5
4
3
2
1
0
BRK1
BRK0
RB8
RDR
THRE
FER
OER
PER
TEMT
HS0
Rsvd
The Serial Port 0 Status Register provides information about the current status of Serial Port 0.
Bit
Name
Attribute
Description
15-11
Rsvd
RO
10
BRK1
R/W
9
BRK0
R/W
8
RB8
R/W
7
RDR
RO
6
THRE
RO
5
FER
R/W
4
OER
R/W
3
PER
R/W
2
TEMT
RO
1
HS0
RO
0
Rsvd
RO
Reserved.
Long Break Detected. This bit should be reset by software.
When a long break is detected, this bit will be set high.
Short Break Detected. This bit should be reset by software.
When a short break is detected, this bit will be set high.
Received Bit 8. This bit should be reset by software.
This bit contains the ninth data bit received in mode 2 and mode 3.
Received Data Ready. Read only.
The Received Data Register contains valid data. This bit is set high and can only be
reset through reading the Serial Port 0 Receive Register.
Transmit Holding Register Empty. Read only.
When the Transmit Hold Register is ready to accept data, this bit will be set. This bit
will be reset when data is written to the Transmit Hold Register.
Framing Error detected.
This bit should be reset by software.
This bit is set when a framing error is detected.
Overrun Error Detected. This bit should be reset by software.
This bit is set when an overrun error is detected.
Parity Error Detected. This bit should be reset by software.
This bit is set when a parity error (for mode 1 and mode 3) is detected.
Transmitter Empty. This bit is read only.
When the Transmit Shift Register is empty, this bit will be set.
Handshake Signal 0. This bit is read only.
This bit reflects the inverted value of the external CTS0_n pin.
Reserved.
R8822 Datasheet
Final Version 1.7
May 19, 2005
91
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
84h
Register Name:
Serial Port 0 Transmit Register
Reset Value
-----──
15
14
:
13
12
11
10
9
8
7
6
5
4
Reserved
3
2
1
0
TDATA
Bit
Name
Attribute
Description
15-8
Rsvd
RO
7-0
TDATA
RO
Reserved.
Transmit Data. This register is written by software with data transmitted on Serial Port
0.
Register Offset:
86h
Register Name:
Serial Port 0 Receive Register
Reset Value
-----──
15
14
:
13
12
11
10
9
8
7
6
5
Reserved
4
3
2
1
0
RDATA
Bit
Name
Attribute
Description
15-8
Rsvd
RO
7-0
RDATA
RO
Reserved.
Receive DATA. In order to avoid invalid data being read, the RDR bit (82h.4) should
be read as 1 before this register is read.
Register Offset:
88h
Register Name:
Serial Port 0 Baud Rate Divisor Register
Reset Value
0000h──
15
14
:
13
12
11
10
9
8
7
6
5
4
3
2
1
0
BAUDDIV
Bit
Name
BAUDDI
15-0
V
92
Attribute
Description
R/W
Baud Rate Divisor.
The general formula for baud rate divisor is Baud Rate = Microprocessor Clock /
(16 x BAUDDIV). For example, if the microprocessor clock is 22.1184MHz and the
BAUDDIV=12 (decimal), the baud rate of the serial port will be 115.2K.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
10h
Register Name:
Serial Port 1 Control Register
Reset Value
0000h
15
14
:
13
DMA
12
11
10
9
8
7
RISE
BRK
TB8
FC
TXIE
RXIE
6
5
TMOD RMOD
E
E
4
3
EVN
PE
2
1
0
MODE
These bit definitions are the same as those of Register 80h.
Register Offset:
12h
Register Name:
Serial Port 1 Status Register
Reset Value
──-----
15
14
:
13
12
11
Reserved
10
9
8
7
6
5
4
3
2
1
0
BRK1
BRK0
RB8
RDR
THRE
FER
OER
PER
TEMT
HS0
Rsvd
5
4
3
2
1
0
2
1
0
These bit definitions are the same as those of Register 82h.
Register Offset:
14h
Register Name:
Serial Port 1 Transmit Register
Reset Value
-----──
15
14
:
13
12
11
10
9
8
7
6
Reserved
TDATA
These bit definitions are the same as those of Register 84h.
Register Offset:
16h
Register Name:
Serial Port 1 Receive Register
Reset Value
-----──
15
14
:
13
12
11
10
9
8
7
Reserved
6
5
4
3
RDATA
These bit definitions are the same as those of Register 86h.
R8822 Datasheet
Final Version 1.7
May 19, 2005
93
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
18h
Register Name:
Serial Port 1 Baud Rate Divisor Register
Reset Value
0000h──
15
14
:
13
12
11
10
9
8
7
6
5
4
3
2
1
0
BAUDDIV
These bit definitions are the same as those of Register 88h.
94
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
17.18. PIO Unit
The R8822 provides 32 programmable I/O signals, which are multi-function pins with other normal function
signals. Through programming Registers 7Ah, 78h, 76h, 74h, 72h and 70h, software can configure these
multi-function pins as PIOs or normal functions.
For internal
pull-up
VCC
PIO
PIO
Mode Direction
Normal Function
Pin
D
PIO Data In/Out
Q
VCC
Write
PDATA
Q
Read
PDATA
OE
D
Microprocessor
Clock
For internal
pull-down
Normal Data In
"0":abnormal function
PIO Pin Operation Diagram
17.118.1
PIO No.
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
R8822 Datasheet
Final Version 1.7
May 19, 2005
PIO Multi-Function Pins
Pin No. (PQFP)
Multi Function
72
TMRIN1
73
TMROUT1
59
PCS6_n/A2
60
PCS5_n/A1
48
DT/R_n
49
DEN_n
46
SRDY
22
A17/MA8
20
A18
19
A19
74
TMROUT0
75
TMRIN0
77
DRQ0/INT5
76
DRQ1/INT6
50
MCS0_n
51
MCS1_n/UCAS_n
66
PCS0_n
65
PCS1_n
63
PCS2_n/CTS1_n/ENRX1_n
Reset status/PIO internal resistor
Input with 10k pull-up
Input with 10k pull-down
Input with 10k pull-up
Input with 10k pull-up
Normal operation/Input with 10k pull-up
Normal operation/Input with 10k pull-up
Normal operation/Input with 10k pull-down
Normal operation/Input with 10k pull-up
Normal operation/Input with 10k pull-up
Normal operation/Input with 10k pull-up
Input with 10k pull-down
Input with 10k pull-up
Input with 10k pull-up
Input with 10k pull-up
Input with 10k pull-up
Input with 10k pull-up
Input with 10k pull-up
Input with 10k pull-up
Input with 10k pull-up
95
RDC®
R8822
RISC DSP Communication
19
20
21
22
23
24
25
26
27
28
29
30
31
62
3
100
2
1
68
69
97
98
99
96
52
54
16-Bit RISC Micro-controller
PCS3_n/RTS1_n/RTR1_n
RTS0_n/RTR0_n
CTS0_n/ENRX0_n
TXD0
RXD0
MCS2_n/LCAS_n
MCS3_n/RAS1_n
UZI_n
TXD1
RXD1
S6/CLKDIV2_n
INT4
INT2
Register Offset:
7Ah
Register Name:
PIO Data 1 Register
Reset Value
:
-----
13
12
15
14
11
10
9
8
7
Input with 10k pull-up
Input with 10k pull-up
Input with 10k pull-up
Input with 10k pull-down
Input with 10k pull-down
Input with 10k pull-up
Input with 10k pull-up
Input with 10k pull-up
Input with 10k pull-up
Input with 10k pull-up
Input with 10k pull-up
Input with 10k pull-up
Input with 10k pull-up
6
5
4
3
2
1
0
PDATA [31:16]
Bit
Name
15-0
PDATA
[31:16]
Attribute
Description
R/W
PIO Data bits.
These bits PDATA[31:16] are mapped to PIO[31:16], which indicate to the driven
level when the PIO pin is as an output or reflect the external level when the PIO
pin is as an input.
Register Offset:
78h
Register Name:
PIO Direction 1 Register
Reset Value
FFFFh
15
14
:
13
12
11
10
9
8
7
6
5
4
3
2
1
0
PDIR [31:16]
Bit
Name
15-0 PDIR[31:16]
96
Attribute
R/W
Description
PIO Direction Register.
Set 1: Configure the PIO pin as an input.
Set 0: Configure the PIO pin as an output or normal function pin.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
76h
Register Name:
PIO Mode 1 Register
Reset Value
0000h
15
14
:
13
12
11
10
9
8
7
6
5
4
3
2
1
0
PMODE [31:16]
Bit
15-0
Name
PMODE
[31:16]
Description
Attribute
PIO Mode bits.
PIO pin definitions are configured by the combination of PIO mode and PIO
direction. The PIO pins are programmed individually.
The definitions (PIO mode, PIO direction) for PIO pin functions:
( 0 , 0 ) – Normal operation , ( 0 , 1 ) – PIO input with pull-up/pull-down
( 1 , 0 ) – PIO output
, ( 1 , 1 ) -- PIO input without pull-up/pull-down
R/W
Register Offset:
74h
Register Name:
PIO Data 0 Register
Reset Value
:
-----
13
12
15
14
11
10
9
8
7
6
5
4
3
2
1
0
PDATA [15: 0]
Bit
Name
Attribute
15-0
PDATA
[15:0]
R/W
Description
PIO Data bits.
These bits PDATA[15:0] are mapped to PIO[15:0], which indicate to the driven
level when the PIO pin is as an output or reflect the external level when the PIO
pin is as an input.
Register Offset:
72h
Register Name:
PIO Direction 0 Register
Reset Value
FC0Fh
15
14
:
13
12
11
10
9
8
7
6
5
4
3
2
1
0
PDIR [15:0]
Bit
Name
15-0 PDIR[15:0]
R8822 Datasheet
Final Version 1.7
May 19, 2005
Attribute
R/W
Description
PIO Direction Register.
Set 1: Configure the PIO pin as an input.
Set 0: Configure the PIO pin as an output or normal function pin.
97
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
70h
Register Name:
PIO Mode 0 Register
Reset Value
0000h
15
14
:
13
12
11
10
9
8
7
6
5
4
3
2
1
0
PMODE [15:0]
Bit
Name
Attribute
15-0
PMODE[15:0]
R/W
98
Description
PIO Mode bits.
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
19. DRAM Controller
The R8822 supports 16-bit EDO or FP DRAM control interface. The supporting types are 256K*16,128K*16,
64K*16 or 32K*16. The DRAM control pins are multiplexed pins, which have been described in the Pin Description
Chapter. The Basic System Application Block Diagram shows the connection between the microcontroller and
DRAM. The DRAM controller supports two banks and dual CAS_n signals (high byte signal UCAS_n and low byte
signal LCAS_n operating modes) accesses. When bit 6 of LMCS (A2h) register is set to 1, bank 0 will be enabled
and all the bit definitions of A2h are for bank 0 of the DRAM controller. When bit 6 of UMCS (A0h) is set to 1, bank
1 is enabled and all bit definitions of A0h are for bank 1 of the DRAM controller.
The memory block size of DRAM is programmable. The memory space of bank 0 is from 00000h to 7FFFFh.
Users can program register A2h (LMCS) to select 64K-, 128K-, 256K- or 512K-byte memory block size. The
memory space of bank 1 is from 80000h to FFFFFh. Users can configure register A0h (UMCS) to select 64K-,
128K-, 256K- or 512K-byte memory block size.
The Address Mapping of MA8 – MA0 & Row, Column Signals:
DRAM Address
MA0(A1)
MA1(A3)
MA2(A5)
MA3(A7)
MA4(A9)
MA5(A11)
MA6(A13)
MA7(A15)
MA8(A17)
BANK 0
BANK 1
RAS0_n (Pin 58)
RAS1_n (Pin 69)
Row Address Mapping
A1
A3
A5
A7
A9
A11
A13
A15
A17
Column Address Mapping
A2
A4
A6
A8
A10
A12
A14
A16
A18
UCAS_n (Pin 51) LCAS_n (Pin 68)
UCAS_n (Pin 51) LCAS_n (Pin 68)
WE_n (Pin 5)
WE_n (Pin 5)
OE_n (Pin 6)
OE_n (Pin 6)
*** The pin numbers are for PQFP configuration ***
19.1
Programmable Read/Write Cycle Time
The DRAM Controller read/write cycle depends on the external wait-state signal (ARDY or SRDY) and bit 0
and bit 1 of registers A0h and A2h. The default wait-state of bank 1 is 3 wait-states. The wait-state bits for bank 0
should be programmed after the CPU is reset.
R8822 Datasheet
Final Version 1.7
May 19, 2005
99
RDC®
19.2
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Programmable Refresh Control
The DRAM controller provides self-refresh or CAS_n before RAS_n refresh control. The hardware will
auto-stop the self-refresh operation when the controller accesses the DRAM data when the DRAM is in self-refresh
mode. During a refresh cycle, the AD bus will drive the address to FFFFFh and the UCS_n signal won’t be asserted.
The CPU will enter the idle state during a refresh cycle and be held for 7 clock cycles. If two banks of DRAM are
being used in a system, both banks will be refreshed at the same time.
The reload counter (E2h) should be set to more than 12h. Users should base on the system clock to
configure the reload value. The normal refresh rate on a DRAM is 15.6us. The refresh counter will be started when
the EN bit (bit 15 of E4h) is enabled.
Wait States & Refresh Counter Values for Reference:
System clock
DRAM Speed
Wait States Refresh Cycle
clocks
25 MHz
70ns
0
7
33MHz
70ns
1
7
60ns
0
7
40MHz
70ns
2
7
60ns
1
7
50ns
0
7
40ns
0
7
Register Offset:
E2h
Register Name:
Refresh Reload Value Counter Register
Reset Value
:
-----
13
12
15
14
11
10
0
9
8
7
6
5
Refresh Reload
Counter Value
186h
203h
203h
270h
270h
270h
270h
4
3
2
1
0
RC[14:0]
Bit
Name
Attribute
15
Rsvd
RO
Reserved
14-0
RC[14:0]
R/W
Refresh Counter Reload Values. The counter value should be set to more than
12h.
100
Description
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Register Offset:
E4h
Register Name:
Refresh Counter Register
Reset Value
:
-----
13
12
15
14
11
EN
10
9
8
7
6
5
4
3
2
1
0
T[14:0]
Bit
Name
Attribute
15
EN
R/W
14-0
T[14:0]
RO
R8822 Datasheet
Final Version 1.7
May 19, 2005
Description
Enable RCU.
Set 1: Enable the refresh counter unit
This bit will be cleared to 0 after hardware reset.
Refresh Count. Read-only bits.
These bits present the value of the down counter which triggers refresh requests.
101
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
20. DC Electrical Characteristics
20.1
Symbol
VTerm
TA
20.2
Absolute Maximum Rating
Rating
Terminal Voltage with Respect
to GND
Ambient Temperature
Commercial
Unit
-0.5~VCC+0.5
V
0~+70
°C
Note
Recommended DC Operating Conditions
Symbol
Parameter
Vcc
Supply Voltage
GND
Ground
Min.
Typ.
Max.
Unit
4.75
5
5.25
V
0
0
0
V
Vih
Input High Voltage (Note 1)
2.0
---
Vcc+0.5
V
Vih1
Input High Voltage (RST_n)
3
---
Vcc+0.5
V
Vih2
Input High Voltage (X1)
3
---
Vcc+0.5
V
-0.5
0
0.8
V
Vil
Input Low voltage
Note 1: The RST_n and X1 pins are not included.
20.3
DC Electrical Characteristics
Symbol
Parameter
Test Condition
Vcc=Vmax
Ili
Input Leakage Current
Vin=GND to Vmax
Input Leakage Current Vcc=Vmax
Ili (with 10K pull R)
with Pull_R 10K enable
Vin=GND to Vmax
Input Leakage Current Vcc=Vmax
Ili (with 50K pull R)
with Pull_R 50K
Vin=GND to Vmax
Vcc=Vmax
Ilo
Output Leakage Current
Vin=GND to Vmax
Iol=6mA,
VOL
Output Low Voltage
Vcc=Vmin.
Ioh=-6mA,
VOH
Output High Voltage
Vcc=Vmin.
Vcc=5.25V
Icc
Max Operating Current
40MHz
Min.
Max.
Unit
-10
10
uA
-400
400
uA
-120
120
uA
-10
10
uA
---
0.4
V
2.4
---
V
---
180
mA
Note 2: Vmax=5.25V Vmin=4.75V
Symbol
FMax
102
Parameter
Max operation clock frequency of
commercial
Min.
Max.
Unit
Note
---
40
MHz
VCC ± 5%
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
21. AC Electrical Characteristics
T1
T2
T3
CLKOUTA
T4
TW
2
A[19:0]
ADDRESS
1
4
3
S6
6
5
AD[15:0]
8
ADDRESS
DATA
10
9
ALE
11
7
12
13
15
14
RD_n
BHE_n
16
17
UCS_n, LCS_n
18
19
PCSx_n, MCSx_n
20
21
DEN_n
22
23
DT/R_n
24
25
S2_n~S0_n
STATUS
26
27
UZI_n
READ CYCLE
R8822 Datasheet
Final Version 1.7
May 19, 2005
103
RDC®
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
R8822
RISC DSP Communication
Description
CLKOUTA high to A Address valid
A address valid to RD_n low
S6 active delay
S6 inactive delay
AD address valid delay
Address hold
Data in setup
Data in hold
ALE active delay
ALE inactive delay
Address valid after ALE inactive
ALE width
RD_n active delay
RD_n pulse width
RD_n inactive delay
CLKOUTA high to LCS_n/UCS_n valid
UCS_n/LCS_n inactive delay
PCS_n/MCS_n active delay
PCS_n/MCS_n inactive delay
DEN_n active delay
DEN_n inactive delay
DT/R_n active delay
DT/R_n inactive delay
Status active delay
Status inactive delay
UZI_n active delay
UZI_n inactive delay
16-Bit RISC Micro-controller
Min.
0
1.5T-9
0
0
0
0
5
2
0
0
T/2-5
T-5
0
2T-10
0
0
0
0
0
0
0
0
0
0
0
0
0
Max.
12
15
15
12
12
12
12
12
12
15
15
15
15
15
15
15
15
15
15
15
15
Unit
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
1. T means a clock period time
2. All timing parameters are measured at 1.5V with 50 pF loading on CLKOUTA
.
104
All output test conditions are with CL=50 pF
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
T1
T2
T3
CLKOUTA
T4
TW
2
A[19:0]
ADDRESS
1
4
3
S6
5
6
AD[15:0]
ADDRESS
7
DATA
9
8
ALE
10
11
13
12
WR_n
14
15
WHB_n, WLB_n
16
17
BHE_n
18
19
UCS_n, LCS_n
20
21
PCSx_n, MCSx_n
22
23
DEN_n
24
25
DT/R_n
26
27
S2_n~S0_n
STATUS
28
29
UZI_n
WRITE CYCLE
R8822 Datasheet
Final Version 1.7
May 19, 2005
105
RDC®
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
106
R8822
RISC DSP Communication
Description
CLKOUTA high to A Address valid
A address valid to WR_n low
S6 active delay
S6 inactive delay
AD address valid delay
Address hold
ALE active delay
ALE width
ALE inactive delay
Address valid after ALE inactive
WR_n active delay
WR_n pulse width
WR_n inactive delay
WHB_n/WLB_n active delay
WHB_n/WLB_n inactive delay
BHE_n active delay
BHE_n inactive delay
CLKOUTA high to UCS_n/LCS_n valid
UCS_n/LCS_n inactive delay
PCS_n/MCS_n active delay
PCS_n/MCS_n inactive delay
DEN_n active delay
DEN_n inactive delay
DT/R_n active delay
DT/R_n inactive delay
Status active delay
Status inactive delay
UZI_n active delay
UZI_n inactive delay
16-Bit RISC Micro-controller
Min.
0
1.5T-9
0
0
0
Max.
12
0
T-10
0
1/2T-5
0
2T-10
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
12
15
15
12
12
12
12
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
Unit
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
T1
T2
T3
T4
T1
T2
T3
T4
T1
CLKOUTA
A[19:0]
c0000
d00C0
AD[15:0]
0
0
20000
0
2211
2211
101fc
*
1fc
*
ALE
RD_n
WR_n
WLB_n
WHB_n
UCS_n
DEN_n
DT/R_n
S2_n~S0_n
7
5
7
6
7
6
S6
1
DRQ0
DMA (1)
* The source-synchronized transfer is not followed immediately by another DMA transfer.
No.
Description
1 DRQ is confirmed time
R8822 Datasheet
Final Version 1.7
May 19, 2005
Min.
5
Max.
1T-5
Unit
ns
107
RDC®
R8822
RISC DSP Communication
T1
T2
T3
16-Bit RISC Micro-controller
T4
T1
T2
T3
T4
T1
T2
T3
T4
T1
T2
T3
T4
T1
CLKOUTA
A[19:0]
AD[15:0]
c0000
0
20000
0
2211
*
2211
C0002
2
20002
4433
2
*
4433
101fc
1fc
ALE
RD_n
WR_n
WLB_n
WHB_n
UCS_n
DEN_n
DT/R_n
S2_n~S0_n
5
7
6
7
5
7
6
7
6
S6
1
DRQ0
DMA (2)
* The source-synchronized transfer is followed immediately by another DMA transfer.
No.
1
108
Description
DRQ is confirmed time
Min.
2
Max.
0
Unit
ns
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
T1
T2
16-Bit RISC Micro-controller
T3
Tw
Tw
Tw
T4
Ti
Ti
Ti
Ti
Ti
Ti
Ti
Ti
Ti
Ti
Ti
Ti
T1
CLKOUTA
A[19:0]
ffff4
AD[15:0]
fff6
f0
f0000
fff*
zZZZZ
ffff6
0
fff6
0
b8
ALE
RD_n
WR_n
WLB_n
UCS_n
DEN_n
DT/R_n
S2_n~S0_n
4
7
4
z
7
1
7
4
3
HOLD
2
4
HLDA
HOLD/HLDA Timing
No.
1
2
3
4
Description
HOLD setup time
HLDA rising valid delay
HOLD hold time
HLDA falling valid delay
R8822 Datasheet
Final Version 1.7
May 19, 2005
Min.
5
0
2
0
Max.
0
15
0
15
Unit
ns
ns
ns
ns
109
RDC®
R8822
RISC DSP Communication
T1
16-Bit RISC Micro-controller
T2
T3
Tw
Tw
Tw
Tw
Tw
Tw
T4
T1
CLKOUTA
ALE
2
1
ARDY
SRDY
LCS_n
ARDY Timing
No.
1
2
Description
ARDY resolution transition setup time
ARDY active hold time
T1
T2
Min.
5
5
T3
Tw
Tw
Max.
0
0
Tw
Unit
ns
ns
Tw
Tw
T4
T1
CLKOUTA
ALE
ARDY
2
1
SRDY
LCS_n
SRDY Timing
No.
1
2
110
Description
SRDY transition setup time
SRDY transition hold time
Min.
5
5
Max.
0
0
Unit
ns
ns
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
t3
16-Bit RISC Micro-controller
t1
t4
t2
t4
t3
t1
CLKOUTA
2
1
Addr.
AD[15:0]
Data
3
4
5
Row
MA[8:0]
Column
6
7
RAS_n
8
9
CAS_n
10
11
RD_n
DRAM Read Cycle with No Wait States
No.
1
2
3
4
5
6
7
8
9
10
11
R8822 Datasheet
Final Version 1.7
May 19, 2005
Description
CLKOUTA low to A Address valid
Data setup time
Data hold time
CLKOUTA high to Row address valid
CLKOUTA low to Column address valid
CLKOUTA low to RAS_n active
CLKOUTA high to RAS_n inactive
CLKOUTA high to CAS_n active
CLKOUTA low to CAS_n inactive
CLKOUTA low to RD_n active
CLKOUTA low to RD_n inactive
Min.
0
5
2
0
0
3
3
3
3
0
0
Max.
12
12
12
12
12
12
12
12
12
Unit
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
111
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
t1
t4
t2
tw
t3
t4
t1
CLKOUTA
1
AD[15:0]
2
Addr.
Data
3
4
5
MA[8:0]
Column
Row
6
7
RAS_n
8
9
CAS_n
10
11
RD_n
DRAM Read Cycle with Wait-States
No.
1
2
3
4
5
6
7
8
9
10
11
112
Description
CLKOUTA low to A Address valid
Data setup time
Data hold time
CLKOUTA high to Row address valid
CLKOUTA low to Column address valid
CLKOUTA low to RAS_n active
CLKOUTA high to RAS_n inactive
CLKOUTA high to CAS_n active
CLKOUTA low to CAS_n inactive
CLKOUTA low to RD_n active
CLKOUTA low to RD_n inactive
Min.
0
5
2
0
0
3
3
3
3
0
0
Max.
12
12
12
12
12
12
12
12
Unit
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
t4
t1
t2
t3
t4
CLKOUTA
1
2
Addr.
AD[15:0]
3
Data
4
Row
MA[8:0]
Column
5
6
RAS_n
7
8
CAS_n
9
10
WR_n
DRAM Write Cycle with No Wait-States
No.
1
2
3
4
5
6
7
8
9
10
Description
CLKOUTA low to A Address valid
CLKOUTA low to A Data valid
CLKOUTA high to Row address valid
CLKOUTA low to Column address valid
CLKOUTA low to RAS_n active
CLKOUTA high to RAS_n inactive
CLKOUTA high to CAS_n active
CLKOUTA low to CAS_n inactive
CLKOUTA low to WR_n active
CLKOUTA low to WR_n inactive
R8822 Datasheet
Final Version 1.7
May 19, 2005
Min.
0
0
0
0
3
3
3
3
0
0
Max.
12
12
12
12
12
12
12
12
12
12
Unit
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
113
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
t4
t1
t2
t3
tw
t4
t1
CLKOUTA
1
2
Addr.
AD[15:0]
Data
4
3
MA[8:0]
Row
Column
5
6
RAS_n
CAS_n
8
7
9
10
WR_n
DRAM Write Cycle with Wait-States
No.
1
2
3
4
5
6
7
8
9
10
114
Description
CLKOUTA low to A Address valid
CLKOUTA low to A Data valid
CLKOUTA high to Row address valid
CLKOUTA low to Column address valid
CLKOUTA low to RAS_n active
CLKOUTA high to RAS_n inactive
CLKOUTA high to CAS_n active
CLKOUTA low to CAS_n inactive
CLKOUTA low to WR_n active
CLKOUTA low to WR_n inactive
Min.
0
0
0
0
3
3
3
3
0
0
Max.
12
12
12
12
12
12
12
12
12
12
Unit
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
t1
t4
tw
t2
tw
tw
t3
t4
t1
CLKOUTA
1
AD[15:0]
FFFF
2
3
MA[8:0]
5
4
RAS_n
7
6
CAS_n
8
9
RD_n
DRAM Refresh Cycle
No.
1
2
3
4
5
6
7
8
9
Description
CLKOUTA high to Data drive FFFF
CLKOUTA high to Row address valid
CLKOUTA low to Column address valid
CLKOUTA high to RAS_n active
CLKOUTA low to RAS_n inactive
CLKOUTA high to CAS_n active
CLKOUTA low to CAS_n inactive
CLKOUTA low to RD_n active
CLKOUTA low to RD_n inactive
R8822 Datasheet
Final Version 1.7
May 19, 2005
Min.
0
0
0
3
3
3
3
0
0
Max.
12
12
12
12
12
12
12
12
12
Unit
ns
ns
ns
ns
ns
ns
ns
ns
ns
115
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
22. Thermal Characteristics
θJA: thermal resistance from device junction to ambient temperature
P: operation power
TA: maximum ambient temperature in operation mode
TA=TJ–( P×θJA )
Package/Board
PQFP/2-Layer
LQFP/2-Layer
PQFP/4-Layer
LQFP/4-Layer
Air Flow (m/s)
0
1
2
3
0
1
2
3
0
1
2
3
0
1
2
3
θJA
48.8
44.9
42.7
41.9
53.6
48.9
45.5
44.5
38.9
35.7
33.8
33.3
42.6
38.0
36.1
35.3
Unit: °C/Watt
Recommended Storage Temperature: –65°C to +125°C
Note: The IC should be mounted on PCB within 7 days after the dry pack is opened. If the IC is out of dry
pack more than 7 days, it should be burned in oven (+125°C, > 12 hours) before mounted on PCB.
116
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
20.23. Instruction Set OP-Code and Clock Cycles
Function
DATA TRANSFER INSTRUCTIONS
MOV = Move
register to register/memory
register/memory to register
immediate to register/memory
immediate to register
memory to accumulator
accumulator to memory
register/memory to segment register
segment register to register/memory
PUSH = Push
memory
register
segment register
immediate
POP = Pop
memory
register
segment register
Format
1000100w
1000101w
1100011w
mod reg r/m
mod reg r/m
mod 000 r/m
1011w reg data
1010000w
1010001w
10001110
10001100
addr-low
addr-low
mod 0 reg r/m
mod 0 reg r/m
11111111
01010 reg
000reg110
011010s0
mod 110 r/m
data
data
data if w=1
addr-high
addr-high
data if w=1
8
3
2
1
data if s=0
36
44
1000011w mod reg r/m
10010 reg
11010111
3/8
3
10
1110010w port
1110110w
12
12
1110010w port
1110110w
12
12
1
14
14
11001001
10011111
10011110
10011100
10011101
ARITHMETIC INSTRUCTIONS
ADD = Add
reg/memory with register to either
000000dw
10001101
11000101
11000100
11001000
mod reg r/m
mod reg r/m
mod reg r/m
data-low
Notes
1/1
1/6
1/1
1
6
1
3/8
2/2
10001111 mod 000 r/m
01011 reg
000 reg
(reg≠01)
111
01100000
01100001
PUSHA = Push all
POPA = Pop all
XCHG = Exchange
register/memory
register with accumulator
XTAL = Translate byte to AL
IN = Input from
fixed port
variable port
OUT = Output from
fixed port
variable port
LEA = Load EA to register
LDS = Load pointer to DS
LES = Load pointer to ES
ENTER = Build stack frame
L=0
L=1
L>1
LEAVE = Tear down stack frame
LAHF = Load AH with flags
SAHF = Store AH into flags
PUSHF = Push flags
POPF = Pop flags
8
6
8
(mod≠11)
(mod≠11)
data-high
L
7
11
11+10(L-1)
7
2
2
2
11
mod reg r/m
1/7
immediate to register/memory
100000sw
mod 000 r/m
data
immediate to accumulator
0000010w
data
data if w=1
R8822 Datasheet
Final Version 1.7
May 19, 2005
Clocks
data if
sw=01
1/8
1
117
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Function
ADC = Add with carry
reg/memory with register to either
immediate to register/memory
immediate to accumulator
INC = Increment
register/memory
register
SUB = Subtract
reg/memory with register to either
Format
000100dw
Clocks
mod reg r/m
1/7
100000sw
mod 010 r/m
data
0001010w
data
data if w=1
1111111w
01000 reg
mod 000 r/m
001010dw
mod reg r/m
data if
sw=01
1/8
1
1/8
1
1/7
data if
sw=01
immediate from register/memory
100000sw
mod 101 r/m
data
immediate from accumulator
SBB = Subtract with borrow
reg/memory with register to either
immediate from register/memory
immediate from accumulator
DEC = Decrement
register/memory
register
NEG = Change sign
register/memory
CMP = Compare
register/memory with register
register with register/memory
0001110w
data
data if w=1
1
000110dw
100000sw
0001110w
mod reg r/m
mod 011 r/m
data
data if w=1
1/7
1/8
1
1111111w
01001 reg
mod 001 r/m
1/8
1
1111011w
mod reg r/m
1/8
0011101w
0011100w
mod reg r/m
mod reg r/m
1/7
1/7
immediate with register/memory
100000sw
mod 111 r/m
data
immediate with accumulator
0011110w
data
data if w=1
MUL = multiply (unsigned)
1111011w
register-byte
register-word
memory-byte
memory-word
IMUL = Integer multiply (signed)
1111011w
register-byte
register-word
memory-byte
memory-word
register/memory multiply immediate (signed) 011010s1
DIV = Divide (unsigned)
register-byte
register-word
memory-byte
memory-word
IDIV = Integer divide (signed)
register-byte
register-word
memory-byte
memory-word
1111011W
AAS = ASCII adjust for subtraction
DAS = Decimal adjust for subtraction
AAA = ASCII adjust for addition
DAA = Decimal adjust for addition
AAD = ASCII adjust for divide
AAM = ASCII adjust for multiply
CBW = Corrvert byte to word
CWD = Convert word to double-word
00111111
00101111
00110111
00100111
11010101
11010100
10011000
10011001
118
Notes
data if
sw=01
1/8
1/7
1
mod 100 r/m
13
21
18
26
mod 101 r/m
mod reg r/m
data
data if s=0
16
24
21
29
23/28
mod 110 r/m
18
26
23
31
1111011w
mod 111 r/m
18
26
23
31
00001010
00001010
3
2
3
2
14
15
2
2
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
Function
BIT MANIPULATION INSTRUCTUIONS
NOT = Invert register/memory
AND = And
reg/memory and register to either
immediate to register/memory
immediate to accumulator
OR = Or
reg/memory and register to either
immediate to register/memory
immediate to accumulator
XOR = Exclusive or
reg/memory and register to either
immediate to register/memory
immediate to accumulator
TEST = And function to flags , no result
register/memory and register
immediate data and register/memory
immediate data and accumulator
Sifts/Rotates
register/memory by 1
register/memory by CL
register/memory by Count
STRING MANIPULATION INSTRUCTIONS
MOVS = Move byte/word
INS = Input byte/word from DX port
OUTS = Output byte/word to DX port
CMPS = Compare byte/word
SCAS = Scan byte/word
LODS = Load byte/word to AL/AX
STOS = Store byte/word from AL/AX
Format
Clocks
1111011w
mod 010 r/m
001000dw
1000000w
0010010w
mod reg r/m
mod 100 r/m
data
data
data if w=1
data if w=1
1/7
1/8
1
000010dw
1000000w
0000110w
mod reg r/m
mod 001 r/m
data
data
data if w=1
data if w=1
1/7
1/8
1
001100dw
1000000w
0011010w
mod reg r/m
mod 110 r/m
data
data
data if w=1
data if w=1
1/7
1/8
1
1000010w
1111011w
1010100w
mod reg r/m
mod 000 r/m
data
data
data if w=1
data if w=1
1/7
1/8
1
1101000w
1101001w
1100000w
mod TTT r/m
mod TTT r/m
mod TTT r/m
1010010w
0110110w
0110111w
1010011w
101011w
1010110w
1010101w
Notes
1/7
count
2/8
1+n / 7+n
1+n / 7+n
13
13
13
18
13
13
7
Repeated by count in CX:
MOVS = Move byte/word
INS = Input byte/word from DX port
OUTS = Output byte/word to DX port
CMPS = Compare byte/word
SCAS = Scan byte/word
LODS = Load byte/word to AL/AX
STOS = Store byte/word from AL/AX
PROGRAM TRANSFER INSTRUCTIONS
Conditional Transfers — jump if:
JE/JZ = equal/zero
JL/JNGE = less/not greater or equal
JLE/JNG = less or equal/not greater
JC/JB/JNAE = carry/below/not above or
equal
JBE/JNA = below or equal/not above
JP/JPE = parity/parity even
JO = overflow
JS = sign
JNE/JNZ = not equal/not zero
JNL/JGE = not less/greater or equal
JNLE/JG = not less or equal/greater
JNC/JNB/JAE = not carry/not below
/above or equal
JNBE/JA = not below or equal/above
JNP/JPO = not parity/parity odd
JNO = not overflow
R8822 Datasheet
Final Version 1.7
May 19, 2005
11110010
11110010
11110010
1111011z
1111001z
11110010
11110100
1010010w
0110110w
0110111w
1010011w
1010111w
0101001w
0101001w
4+9n
5+9n
5+9n
4+18n
4+13n
3+9n
4+3n
01110100
01111100
01111110
disp
disp
disp
1/9
1/9
1/9
01110010
disp
1/9
01110110
01111010
01110000
01111000
01110101
01111101
01111111
01110011
disp
disp
disp
disp
disp
disp
disp
disp
1/9
1/9
1/9
1/9
1/9
1/9
1/9
1/9
01110111
01111011
01110001
disp
disp
disp
1/9
1/9
1/9
119
RDC®
R8822
RISC DSP Communication
JNS = not sign
16-Bit RISC Micro-controller
01111001
disp
Function
1/9
Format
Clocks
Notes
Unconditional Transfers
CALL = Call procedure
direct within segment
reg/memory indirect within segment
indirect intersegment
direct intersegment
RET = Retum from procedure
within segment
within segment adding immed to SP
intersegment
instersegment adding immed to SP
JMP = Unconditional jump
short/long
direct within segment
reg/memory indirect within segment
indirect intersegment
direct intersegment
11101000
11111111
11111111
10011010
11000011
11000010
11001011
1001010
disp-low
disp-high
mod 010 r/m
(mod≠11)
mod 011 r/m
segment offset
selector
data-low
data-high
data-low
data-high
11
12/17
25
18
16
16
23
23
11101011
11101001
11111111
11111111
11101010
disp-low
disp-low
disp-high
mod 100 r/m
mod 101 r/m
(mod ?11)
segment offset
selector
9/9
9
11/16
18
11
11100010
11100001
disp
disp
7/16
7/16
Iteration Control
LOOP = Loop CX times
LOOPZ/LOOPE = Loop while zero/equal
LOOPNZ/LOOPNE = Loop while not
zero/equal
JCXZ = Jump if CX = zero
11100000
disp
7/16
11100011
disp
7/15
Interrupt
INT = Interrupt
Type specified
Type 3
INTO = Interrupt on overflow
BOUND = Detect value out of range
IRET = Interrupt return
11001101
11001100
11001110
01100010
11001111
type
41
41
43/4
21-60
31
PROCESSOR CONTROL INSTRUCTIONS
CLC = clear carry
CMC = Complement carry
STC = Set carry
CLD = Clear direction
STD = Set direction
CLI = Clear interrupt
STI = Set interrupt
HLT = Halt
WAIT = Wait
LOCK = Bus lock prefix
ESC = Math coprocessor escape
NOP = No operation
11111000
11110101
11111001
11111100
11111101
11111010
11111011
11110100
10011011
11110000
11011MMM mod PPP r/m
10010000
2
2
2
2
2
5
5
1
1
1
1
1
SEGMENT OVERRIDE PREFIX
CS
SS
DS
ES
00101110
00110110
00111110
00100110
2
2
2
2
120
mod reg r/m
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
21.24. R8822 Execution Timing
The above instruction timings represent the minimum execution time in clock cycles for each instruction. The
timings given are based on the following assumptions:
1. The opcode, along with data or displacement required for execution, has been prefetched and resided in the
instruction queue at the time needed.
2. No wait states or bus holds occur.
3. All word -data are located on even-address boundaries.
4. One RISC micro operation (uOP) maps one cycle (according to the pipeline stages described below), except
the following case:
Pipeline stages for single micro operations (one cycle):
Fetch Æ Decode Æ op_r Æ ALU Æ WB
(For ALU function uOP)
Fetch Æ Decode Æ EA Æ Access Æ WB
(For memory function uOP)
4.1 Memory read uOP needs 6 cycles for bus.
Pipeline stages for memory read uOP (6 cycles):
Fetch Æ Decode ÆEA Æ Access Æ Idle Æ T0 Æ T1 Æ T2 Æ T3 Æ WB
Bus Cycle
4.2 Memory push uOP needs 1 cycle if it has no previous memory push uOP, and 5 cycles if it has previous
memory push or memory write uOP.
Pipeline stages for memory push uOP after memory push uOP (another 5 cycles):
Fetch Æ Decode Æ EA Æ Access Æ Idle Æ
(2nd uOP) Fetch Æ Decode ÆEA Æ Access Æ
T0 Æ
T1 Æ T2 Æ T3
Æ WB
Access Æ Access Æ Access Æ Access
(1st memory push uOP)
ÆIdle Æ T0 Æ T1 Æ T2 Æ T3 Æ WB
pipeline stall
4.3 MUL uOP and DIV of ALU function uOP for 8-bit operations need both 8 cycles, for 16-bit operations need
both 16 cycles.
4.4 All jumps, calls, ret and loopXX instructions required to fetch the next instruction for the destination address
(unconditional fetch uOP) will need 9 cycles.
Pipeline stages for unconditional fetch:
Fetch Æ Decode Æ EA Æ Access Æ Idle Æ T0 Æ T1 Æ T2 Æ T3 ÆFetch
(Fetch uOP)
(next uOP) FetchÆ Decode Æ EA Æ Access Æ Access Æ Access Æ Access Æ Access ÆIdle Æ T0Æ T1Æ T2ÆT3ÆWB
will be flushed
These 9 cycles cause branch penalty
ÆFetchÆ Decode Æfollowing stages...(New uOP)
Note: op_r: operand read stage; EA: Calculate Effective Address stage; Idle: Bus Idle stage; T0..T3: Bus T0..T3
stage; Access: Access data from cache memory stage.
R8822 Datasheet
Final Version 1.7
May 19, 2005
121
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
25. Package Information
25.1
PQFP
D
23.20
0.20
D1 20.00
0.10
0.20
E
17.20
0.10
E1 14.00
"A"
"A"
0.65 BSC
0.10
0.25 MIN
A1
SEATING
PLANE
c
0.25~0.38
7 TYP
15 TYP
1.60 REF
L1
A2
2.85 0.12
DETAIL A
3.40 Max.
L
0.88 0.15
0.25
DETAIL A
UNIT:mm
122
R8822 Datasheet
Final Version 1.7
May 19, 2005
RDC®
16-Bit RISC Micro-controller
LQFP
16.00
0.15
14.00
0.10
75
25
51
50
0.127(TYP)
26
0.15
1
16.00
76
0.10
100
14.00
25.2
R8822
RISC DSP Communication
0.50(TYP)
0.22
0.05
"A"
0 ~ 7
0.10
0.60
0.2S(TYP)
GAUGE PLANE
1.40
0.05
0.08(MAX)
0.05
1.60(MAX)
Sealing Plane
0.15
1.00(REF)
UNIT:mm
R8822 Datasheet
Final Version 1.7
May 19, 2005
123
RDC®
R8822
RISC DSP Communication
16-Bit RISC Micro-controller
26. Revision History
Rev.
P10
F11
F12
F13
F14
F15
F16
F17
Date
2000/7/31
2001/5/17
2001/8/10
2001/11/29
2001/12/25
2002/05/08
2004/01/05
2005/05/19
History
Preliminary Version
Final Version 1.1: Formal release
Modify Wait State Description (Page 30)
DC Characteristics
Modify Oscillator Characteristics
Modify Wait State Description
Modify DC Characteristics and add Thermal Characteristics.
Final Version 1.7
Page 120 & 121: Package Information modified.
RDC reserves the right to make changes without further notice to any products or data herein to improve reliability, function, or design. Information furnished by RDC is believed to be accurate
and reliable. However, RDC does not assure any liability arising out of the application or use of this information, nor the application or use of any product or circuit described herein, neither
does it convey any license under its patent rights nor the rights of others.
124
R8822 Datasheet
Final Version 1.7
May 19, 2005