IA186XL/IA188XL
16-Bit Microcontrollers
Data Sheet
January 9, 2015
IA186XL/IA188XL
16-Bit Microcontroller
Data Sheet
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16-Bit Microcontrollers
Data Sheet
January 9, 2015
Copyright 2015 by Innovasic Semiconductor, Inc.
Published by Innovasic Semiconductor, Inc.
3737 Princeton Drive NE, Suite 130, Albuquerque, NM 87107
MILES™ is a trademark Innovasic Semiconductor, Inc.
Intel is a registered trademark of Intel Corporation
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Data Sheet
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TABLE OF CONTENTS
List of Figures ..................................................................................................................................5
List of Tables ...................................................................................................................................6
1.
Introduction.............................................................................................................................7
1.1 General Description.......................................................................................................7
1.2 Features .........................................................................................................................8
2.
Packaging, Pin Descriptions, and Physical Dimensions .........................................................9
2.1 Packages and Pinouts ....................................................................................................9
2.1.1 IA186XL 68 PLCC Package ..........................................................................10
2.1.2 IA188XL 68 PLCC Package ..........................................................................12
2.1.3 PLCC Physical Dimensions ............................................................................14
2.1.4 IA186XL 80 PQFP Package ...........................................................................15
2.1.5 IA188XL 80 PQFP Package ...........................................................................17
2.1.6 PQFP Physical Dimensions ............................................................................19
2.1.7 IA186XL 80 LQFP Package ...........................................................................20
2.1.8 IA188XL 80 LQFP Package ...........................................................................22
2.1.9 LQFP Physical Dimensions ............................................................................24
2.2 IA186XL Pin/Signal Descriptions ..............................................................................25
2.3 IA188XL Pin/Signal Descriptions ..............................................................................31
3.
Maximum Ratings, Thermal Characteristics, and DC Parameters .......................................37
4.
Functional Description..........................................................................................................39
4.1 Device Architecture.....................................................................................................39
4.1.1 Bus Interface Unit ...........................................................................................39
4.1.2 Clock Generator ..............................................................................................42
4.1.3 Interrupt Control Unit .....................................................................................42
4.1.4 Timer/Counter Unit ........................................................................................42
4.1.5 Chip-Select/Ready Generation Logic .............................................................43
4.1.6 DMA ...............................................................................................................44
4.1.7 DRAM Refresh Control Unit..........................................................................44
4.1.8 Power-Save Control ........................................................................................44
4.2 Operating Modes .........................................................................................................45
4.2.1 Enhanced Mode ..............................................................................................45
4.2.2 Queue Status Mode .........................................................................................45
4.2.3 ONCE Mode ...................................................................................................45
4.2.4 Math Coprocessor (IA186XL Only) ...............................................................45
Table 12. Internal Register Map ..........................................................................................46
5.
AC Specifications .................................................................................................................47
5.1 Major Cycle Timings – Read Cycle ............................................................................47
5.2 Major Cycle Timings – Write Cycle ...........................................................................49
5.3 Major Cycle Timings – Interrupt Acknowledge Cycle ...............................................51
5.4 Software Halt Cycle Timings ......................................................................................53
5.5 Clock Timings .............................................................................................................55
5.6 Ready, Peripheral and Queue Status Timings .............................................................56
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6.
7.
8.
9.
10.
Data Sheet
January 9, 2015
5.7 Reset and HOLD/HLDA Timings...............................................................................57
Instruction Execution Times .................................................................................................61
Innovasic Part Number Cross-Reference..............................................................................66
Errata.....................................................................................................................................69
8.1 Summary .....................................................................................................................69
8.2 Detail ...........................................................................................................................70
Data Sheet Revision History .................................................................................................75
For Additional Information...................................................................................................76
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Data Sheet
January 9, 2015
LIST OF FIGURES
Figure 1. IA186XL 68-Lead PLCC Package Diagram .................................................................10
Figure 2. IA188XL 68-Lead PLCC Package Diagram .................................................................12
Figure 3. PLCC Physical Package Dimensions ............................................................................14
Figure 4. IA186XL 80-Lead PQFP Package Diagram .................................................................15
Figure 5. IA188XL 80-Lead PQFP Package Diagram .................................................................17
Figure 6. PQFP Physical Package Dimensions.............................................................................19
Figure 7. IA186XL 80-Lead LQFP Package Diagram .................................................................20
Figure 8. IA188XL 80-Lead LQFP Package Diagram .................................................................22
Figure 9. LQFP Physical Package Dimensions ............................................................................24
Figure 10. IA186XL/IA188XL Functional Block Diagram .........................................................41
Figure 11. Clock Circuit Connection Options ..............................................................................43
Figure 12. Read Cycle Waveforms ...............................................................................................48
Figure 13. Write Cycle Waveforms ..............................................................................................50
Figure 14. Interrupt Acknowledge Cycle Waveforms ..................................................................52
Figure 15. Software Halt Cycle Waveforms .................................................................................54
Figure 16. Clock Waveforms ........................................................................................................58
Figure 17. Reset Waveforms.........................................................................................................58
Figure 18. Synchronous Ready (SRDY) Waveforms ...................................................................58
Figure 19. Asynchronous Ready (ARDY) Waveforms ................................................................59
Figure 20. Peripheral and Queue Status Waveforms ....................................................................59
Figure 21. HOLDA/HLDA Waveforms (Entering Hold) .............................................................60
Figure 22. HOLD/HLDA Waveforms (Leaving Hold) ................................................................60
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Data Sheet
January 9, 2015
LIST OF TABLES
Table 1. IA186XL 68-Lead PLCC Pin Listing .............................................................................11
Table 2. IA188XL 68-Lead PLCC Pin Listing .............................................................................13
Table 3. IA186XL 80-Lead PQFP Pin Listing .............................................................................16
Table 4. IA188XL 80-Lead PQFP Pin Listing .............................................................................18
Table 5. IA186XL 80-Lead LQFP Pin Listing .............................................................................21
Table 6. IA188XL 80-Lead LQFP Pin Listing .............................................................................23
Table 7. IA186XL Pin/Signal Descriptions ..................................................................................25
Table 8. IA188XL Pin/Signal Descriptions ..................................................................................31
Table 9. IA186XL and IA188XL Absolute Maximum Ratings ...................................................37
Table 10. IA186XL and IA188XL Thermal Characteristics ........................................................37
Table 11. IA186XL and IA188XL DC Parameters ......................................................................38
Table 13. Major Cycle Timings – Read Cycle .............................................................................47
Table 14. Major Cycle Timings – Write Cycle.............................................................................49
Table 15. Major Cycle Timings – Interrupt Acknowledge Cycle ................................................51
Table 16. Software Halt Cycle Timings .......................................................................................53
Table 17. Clock Timings...............................................................................................................55
Table 18. Ready, Peripheral and Queue Status Timings ..............................................................56
Table 19. Reset and HOLD/HLDA Timings ................................................................................57
Table 20. Instruction Set Timing ..................................................................................................61
Table 21. Innovasic Part Number Cross-Reference for the PLCC ...............................................66
Table 22. Innovasic Part Number Cross-Reference for the PQFP (Special Order only) ..............67
Table 23. Innovasic Part Number Cross-Reference for the LQFP (Special Order only) .............68
Table 24. Summary of Errata ........................................................................................................69
Table 25. Data Sheet Revision History .........................................................................................75
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1.
Data Sheet
January 9, 2015
Introduction
The Innovasic Semiconductor IA186XL and IA188XL microcontrollers are form, fit, and
function replacements for the original Intel 80C186XL and 80C188XL 16-bit high-integration
embedded processors.
These devices are produced using Innovasic’s Managed IC Lifetime Extension System
(MILES™). This cloning technology, which produces replacement ICs beyond simple
emulations, is designed to achieve compatibility with the original device, including any
“undocumented features.” Please note that there may be some functional differences between the
Innovasic device and the original device and customers should thoroughly test the device in
system to ensure compatibility. Innovasic reports all known functional differences in the Errata
section of this data sheet. Additionally, MILES™ captures the clone design in such a way that
production of the clone can continue even as silicon technology advances.
The IA186XL and IA188XL microcontrollers replace the obsolete Intel 80C186XL and
80C188XL devices, allowing users to retain existing board designs, software
compilers/assemblers, and emulation tools, thereby avoiding expensive redesign efforts.
1.1
General Description
The Innovasic Semiconductor IA186XL and IA188XL microcontrollers have a set of base
peripherals beneficial to many embedded applications and include a standard numeric interface,
an interrupt control unit, a chip-select unit/Ready Generation Logic, a DRAM refresh control
unit, a Power-Save Control unit, DMA and three 16-bit timer/counters.
The IA186XL and IA188XL microcontrollers operate at 5.0 volts ± 10%.
The following functional description describes the base architecture of the 80C186XL. The
80C186XL is a very high integration 16-bit microprocessor. It combines some of the most
common microprocessor system components onto one chip. The 80C186XL is object-code
compatible with the 8086/8088 microprocessors and adds ten new instruction types to the
8086/8088 instruction set.
The 80C186XL has two major modes of operation, Compatible and Enhanced. In Compatible
Mode, the 80C186XL is completely compatible with the 80186, with the exception of 8087
support. The Enhanced mode adds three new features to the system design. These are PowerSave control, Dynamic RAM refresh, and an asynchronous Numerics Coprocessor interface
(80C186XL only).
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1.2
Data Sheet
January 9, 2015
Features
The primary features of the IA186XL and IA188XL microcontrollers are as follows:
Form, fit, and function compatible version of the low power Intel 80C186XL/80C188XL
Operation modes:
– Enhanced mode
o DRAM refresh control unit
o Power-save mode
o Direct interface to 80C187 (IA186XL only)
– Compatible mode
o Pin-for-pin replacement for NMOS 80186/80188 non-numeric applications
Integrated feature set
– Static, modular CPU
– Clock generator
– Two independent DMA channels
– Programmable interrupt controller
– Three programmable 16-bit timers
– Dynamic RAM refresh control unit
– Programmable memory and peripheral chip select logic
– Programmable wait state generator
– Local bus controller
– Power-save mode
– System-level testing support (high impedance test mode)
Completely object-code compatible with existing 8086/8088 software and has ten
additional instructions over 8086/8088
Crystal supports internal 20–25 MHz operation
Direct addressing capability to 1 MByte memory and 64 Kbyte I/O
Available in 68-Lead:
– Plastic Leaded Chip Carrier (PLCC)
Available in 80-Lead:
– Plastic Quad Flat Pack (PQFP)
– Low Profile Quad Flat Pack (LQFP)
Extended Temperature Range (-40°C to +85°C)
Chapter 4, Functional Description, provides details of the IA186XL and IA188XL
microcontrollers, including the features listed above.
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2.
Data Sheet
January 9, 2015
Packaging, Pin Descriptions, and Physical Dimensions
Information on the packages and pin descriptions for the IA186XL and the IA188XL is provided
separately. Refer to sections, figures, and tables for information on the device of interest.
2.1
Packages and Pinouts
The Innovasic Semiconductor IA186XL and IA188XL microcontroller is available in the
following packages:
68-Lead Plastic Leaded Chip Carrier (PLCC), equivalent to original PLCC package
80-Lead Plastic Quad Flat Pack (PQFP), equivalent to original PQFP package
80-Lead Low Profile Quad Flat Pack (LQFP), equivalent to original SQFP package
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2.1.1
Data Sheet
January 9, 2015
IA186XL 68 PLCC Package
The pinout for the IA186XL 68 PLCC package is as shown in Figure 1. The corresponding
pinout is provided in Table 1.
Figure 1. IA186XL 68-Lead PLCC Package Diagram
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Table 1. IA186XL 68-Lead PLCC Pin Listing
Pin
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
Name
ad15
ad7
ad14
ad6
ad13
ad5
ad12
ad4
vcc
ad11
ad3
ad10
ad2
ad9
ad1
ad8
ad0
Pin
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
Name
drq0
drq1
tmr in 0
tmr in 1
tmr out 0
tmr out 1
res_n
pcs0_n
vss
pcs1_n
pcs2_n
pcs3_n
pcs4_n
pcs5_n/a1
pcs6_n/a2
lcs_n
ucs_n
Pin
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
Name
mcs3_n/nps_n
mcs2_n
mcs1 _n/error_n
mcs0_n/pereq
den_n
dt/r_n
int3/inta1_n
int2/inta0_n
vcc
int1/select_n
int0
nmi
test_n /busy
lock_n
srdy
hold
hlda
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Pin
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
Name
s0_n
s1_n
s2_n
ardy
clkout
reset
x2
x1
vss
ale/qs0
rd_n/qsmd_n
wr_n/qs1
bhe_n
a19/s6
a18/s5
a17/s4
a16/s3
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2.1.2
Data Sheet
January 9, 2015
IA188XL 68 PLCC Package
The pinout for the IA188XL 68 PLCC package is as shown in Figure 2. The corresponding
pinout is provided in Table 2.
NOTE: The Innovasic 68-Lead PLCC package has both an ink mark and an indentation to
indicate proper orientation. Pin 1 is designated by the ink mark, as shown in Figure 2.
Ink Mark
(Pin 1 Indicator)
Figure 2. IA188XL 68-Lead PLCC Package Diagram
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Table 2. IA188XL 68-Lead PLCC Pin Listing
Pin
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
Name
a15
ad7
a14
ad6
a13
ad5
a12
ad4
vcc
a11
ad3
a10
ad2
a9
ad1
a8
ad0
Pin
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
Name
drq0
drq1
tmr in 0
tmr in 1
tmr out 0
tmr out 1
res_n
pcs0_n
vss
pcs1_n
pcs2_n
pcs3_n
pcs4_n
pcs5_n/a1
pcs6 _n/a2
lcs_n
ucs_n
Pin
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
Name
mcs3_n/nps_n
mcs2_n
mcs1 _n/error_n
mcs0 _n/pereq
den_n
dt/r_n
int3/inta1_n
int2/inta0_n
vcc
int1/select_n
int0
nmi
test_n /busy
lock_n
srdy
hold
hlda
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Pin
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
Name
s0_n
s1_n
s2_n
ardy
clkout
reset
x2
x1
vss
ale/qs0
rd _n/qsmd_n
wr _n/qs1
rfsh_n
a19/s6
a18/s5
a17/s4
a16/s3
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2.1.3
Data Sheet
January 9, 2015
PLCC Physical Dimensions
The physical dimensions for the 68 PLCC are as shown in Figure 3.
Legend:
1
Symbol Min Nom Max
c
– 0.008 –
D
– 0.990 –
D1
– 0.953 –
D2
– 0.910
D3
– 0.800 –
E
– 0.990 –
E1
– 0.953 –
E2
– 0.910 –
E3
– 0.800 –
1. Datums D–E and F–G
to be determined where
center leads exit plastic
body at Datum Plane –H– .
2. Datum Plane –H–
located at top of mold
parting line and coincident
with top of lead. Where
lead exits plastic body.
1
Note: Controlling
dimension in inches.
Figure 3. PLCC Physical Package Dimensions
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16-Bit Microcontrollers
2.1.4
Data Sheet
January 9, 2015
IA186XL 80 PQFP Package
The pinout for the IA186XL 80 PQFP package is as shown in Figure 4. The corresponding
pinout is provided in Table 3.
Figure 4. IA186XL 80-Lead PQFP Package Diagram
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Table 3. IA186XL 80-Lead PQFP Pin Listing
Pin
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
Name
ad15
n.c.
a16/s3
a17/s4
a18/s5
a19/s6
bhe_n
wr_n/qs1
rd_n/qsmd_n
ale/qs0
n.c.
vss
vss
n.c.
n.c.
x1
x2
reset
clkout
ardy
Pin
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
Name
s2_n
s1_n
s0_n
n.c.
hlda
hold
srdy
lock_n
test_n /busy
nmi
int0
int1/select_n
vcc
vcc
int2/inta0_n
int3/inta1_n
dt/r_n
den_n
mcs0 _n/pereq
mcs1 _n/error_n
Pin
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
Name
mcs2_n
mcs3_n/nps_n
n.c.
n.c.
ucs_n
lcs_n
pcs6 _n/a2
pcs5_n/a1
pcs4_n
pcs3_n
pcs2_n
pcs1_n
vss
pcs0_n
res_n
tmr out 1
tmr out 0
tmr in 1
tmr in 0
drq1
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Pin
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
Name
drq0
n.c.
n.c.
ad0
ad8
ad1
ad9
ad2
ad10
ad3
ad11
vcc
vcc
ad4
ad12
ad5
ad13
ad6
ad14
ad7
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2.1.5
Data Sheet
January 9, 2015
IA188XL 80 PQFP Package
The pinout for the IA186XL 80 PQFP package is as shown in Figure 5. The corresponding
pinout is provided in Table 4.
Figure 5. IA188XL 80-Lead PQFP Package Diagram
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Table 4. IA188XL 80-Lead PQFP Pin Listing
Pin
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
Name
a15
n.c.
a16/s3
a17/s4
a18/s5
a19/s6
rfsh_n
wr_n/qs1
rd_n/qsmd_n
ale/qs0
n.c.
vss
vss
n.c.
n.c.
x1
x2
reset
clkout
ardy
Pin
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
Name
s2_n
s1_n
s0_n
n.c.
hlda
hold
srdy
lock_n
test_n /busy
nmi
int0
int1/select_n
vcc
vcc
int2/inta0_n
int3/inta1_n
dt/r_n
den_n
mcs0 _n/pereq
mcs1 _n/error_n
Pin
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
Name
mcs2_n
mcs3_n/nps_n
n.c.
n.c.
ucs_n
lcs_n
pcs6 _n/a2
pcs5_n/a1
pcs4_n
pcs3_n
pcs2_n
pcs1_n
vss
pcs0_n
res_n
tmr out 1
tmr out 0
tmr in 1
tmr in 0
drq1
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Pin
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
Name
drq0
n.c.
n.c.
ad0
a8
ad1
a9
ad2
a10
ad3
a11
vcc
vcc
ad4
a12
ad5
a13
ad6
a14
ad7
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2.1.6
Data Sheet
January 9, 2015
PQFP Physical Dimensions
The physical dimensions for the 80 PQFP are as shown in Figure 6.
Legend:
Notes:
1. Dimension D1 and E1 do not include mold protrusion.
Allowable protrusion is 0.25mm per side. Dimension D1
and E1 do not include mold mismatch and are determined
a datum plane –H– .
2. Dimension b does not include dambar protrusion.
Allowable dambar protrusion will not cause the lead width
to exceed the maximum b dimension by more than
0.08mm. Dambar cannot be located on the lower radius of
the lead foot.
Millimeter
Inch
Symbol Min Nom Max Min Nom Max
A
–
– 3.40 –
– 0.134
A1
0.25 –
– 0.010 –
–
A2
2.55 2.72 3.05 0.100 0.107 0.120
D
23.90 Basic
0.941 Basic
D1
20.00 Basic
0.787 Basic
E
17.90 Basic
0.705 Basic
E1
14.00 Basic
0.551 Basic
R2 0.013 – 0.30 0.005 – 0.012
R1 0.013 –
– 0.005 –
–
θ
0° 3.5° 7° 0° 3.5° 7°
θ1
0°
–
–
0°
–
–
a
7°
REF
7°
REF
θ2, θ3
15° REF
15° REF
θ2, θ3b
c
0.11 0.15 0.23 0.004 0.006 0.009
L
0.73 0.88 1.03 0.029 0.035 0.041
L1
1.95 REF
0.077 REF
S
0.40 –
– 0.016 –
–
b
0.30 0.35 0.45 0.012 0.014 0.018
e
0.80 BSC
0.031 BSC
D2
18.40 REF
0.724
E2
12.00 REF
0.472
Tolerances of Form and Position
aaa
0.25
0.010
bbb
0.20
0.008
ccc
0.20
0.008
aAlloy 42 L/F.
bCopper L/F.
Figure 6. PQFP Physical Package Dimensions
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Data Sheet
January 9, 2015
IA186XL 80 LQFP Package
The pinout for the IA186XL 80 LQFP package is as shown in Figure 7. The corresponding
pinout is provided in Table 5.
Figure 7. IA186XL 80-Lead LQFP Package Diagram
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Table 5. IA186XL 80-Lead LQFP Pin Listing
Pin
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
Name
ad0
ad8
ad1
n.c.
ad9
ad2
ad10
ad3
ad11
vcc
vcc
ad4
ad12
ad5
ad13
ad6
ad14
ad7
ad15
vcc
Pin
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
Name
a16/s3
a17/s4
a18/s5
a19/s6
n.c.
bhe_n
wr_n/qs1
rd_n/qsmd_n
ale/qs0
vss
vss
x1
x2
reset
n.c.
clkout
ardy
s2_n
s1_n
s0_n
Pin
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
Name
vss
hlda
hold
srdy
lock_n
test_n/busy
nmi
int0
int1/select_n
vcc
vcc
int2/inta0_n
int3/inta1_n
dt/r_n
n.c.
den_n
mcs0_n/pereq
mcs1_n/error
mcs2_n
mcs3_n/nps_n
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Pin
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
Name
vcc
ucs_n
lcs_n
pcs6_n/a2
pcs5_n/a1
pcs4_n
pcs3_n
pcs2_n
pcs1_n
vss
pcs0_n
n.c.
res_n
tmr out 1
tmr out 0
tmr in 1
tmr in 0
dqr1
dqr0
vss
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Data Sheet
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IA188XL 80 LQFP Package
The pinout for the IA188XL 80 LQFP package is as shown in Figure 8. The corresponding
pinout is provided in Table 6.
Figure 8. IA188XL 80-Lead LQFP Package Diagram
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Table 6. IA188XL 80-Lead LQFP Pin Listing
Pin
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
Name
ad0
a8
ad1
n.c.
a9
ad2
a10
ad3
a11
vcc
vcc
ad4
a12
ad5
a13
ad6
a14
ad7
a15
vcc
Pin
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
Name
a16/s3
a17/s4
a18/s5
a19/s6
n.c.
rfsh_n
wr_n/qs1
rd_n/qsmd_n
ale/qs0
vss
vss
x1
x2
reset
n.c.
clkout
ardy
s2_n
s1_n
s0_n
Pin
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
Name
vss
hlda
hold
srdy
lock_n
test_n/busy
nmi
int0
int1/select_n
vcc
vcc
int2/inta0_n
Int3/inta1_n
dt/r_n
n.c.
den_n
mcs0_n/pereq
mcs1_n/error
mcs2_n
mcs3_n/nps_n
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Pin
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
Name
vcc
ucs_n
lcs_n
pcs6_n/a2
pcs5_n/a1
pcs4_n
pcs3_n
pcs2_n
pcs1_n
vss
pcs0_n
n.c.
res_n
tmr out 1
tmr out 0
tmr in 1
tmr in 0
dqr1
dqr0
vss
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Data Sheet
January 9, 2015
LQFP Physical Dimensions
The physical dimensions for the 80 LQFP are as shown in Figure 9.
Legend:
Symbol
A
A1
A2
b
b1
c
c1
D
D1
E
E1
e
L
L1
R1
R2
S
θ
θ1
θ2
θ3
Dimension in mm
Min Nom Max
–
–
1.60
0.05
–
0.15
1.35 1.40 1.45
0.17 0.22 0.27
0.17 0.20 0.23
0.09
–
0.20
0.09
–
0.16
14.00 BSC
12.00 BSC
14.00 BSC
12.00 BSC
0.50 BSC
0.45 0.60 0.75
1.00 REF
0.08
–
–
0.08
–
0.20
0.20
–
–
0°
3.5°
7°
0°
–
–
11°
12°
13°
11°
12°
13°
Dimension in Inch
Min
Nom
Max
–
–
0.063
0.002
–
0.006
0.053 0.055 0.057
0.007 0.009 0.011
0.007 0.008 0.009
0.004
–
0.008
0.004
–
0.006
0.551 BSC
0.472 BSC
0.551 BSC
0.472 BSC
0.020 BSC
0.018 0.024 0.030
0.039 REF
0.003
–
–
0.003
–
0.008
0.008
–
–
0°
3.5°
7°
0°
–
–
11°
12°
13°
11°
12°
13°
1. To be determined at seating plane C.
2. Dimensions D1 and E1 do not include
mold protrusion. D1 and E1 are
maximum plastic body size
dimensions including mold mismatch.
3. Dimension b does not include dambar
protrusion. Dambar cannot be located
on the lower radius of the foot.
4. Exact shape of each corner is
optional.
5. These dimensions apply to the flat
section of the lead between 0.10 and
0.25mm from the lead tip.
6. A1 is defined as the distance from the
seating plane to the lowest point of the
package body.
Notes:
1. Exact shape of each corner is optional.
2. Controlling dimension: mm.
Figure 9. LQFP Physical Package Dimensions
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Data Sheet
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IA186XL Pin/Signal Descriptions
Descriptions of the pin and signal functions for the IA186XL microcontroller are provided in
Table 7.
Several of the IA186XL pins have different functions depending on the operating mode of the
device. Each of the different signals supported by a pin is listed and defined in Table 7, indexed
alphabetically in the first column of the table. Additionally, the name of the pin associated with
the signal as well as the pin numbers for the PLCC, PQFP, and LQFP packages are provided in
the “Pin” column. Signals not used in a specific package type are designated “NA.”
Table 7. IA186XL Pin/Signal Descriptions
Signal
a1
a2
a16
a17
a18
a19
ad0
ad1
ad2
ad3
ad4
ad5
ad6
ad7
ad8
ad9
ad10
ad11
ad12
ad13
ad14
ad15
Name
pcs5_n/a1
pcs6_n/a2
a16/s3
a17/s4
a18/s5
a19/s6
Pin
PLCC
31
32
68
67
66
65
PQFP
48
47
3
4
5
6
LQFP
65
64
21
22
23
24
Description
Latched address bit a1. Output.
Latched address bit a2. Output.
address bits 16–19. Output. These pins
provide the four most-significant bits of the
Address Bus during T1 only. During T2, T3, TW
and T4 they provide bus status.
ad0
ad1
ad2
ad3
ad4
ad5
ad6
ad7
ad8
ad9
ad10
ad11
ad12
ad13
ad14
ad15
17
15
13
11
8
6
4
2
16
14
12
10
7
5
3
1
64
66
68
70
74
76
78
80
65
67
69
71
75
77
79
1
1
3
6
8
12
14
16
18
2
5
7
9
13
15
17
19
address/data bits 0–15. Input/Output. These
pins provide the multiplexed Address Bus and
Data Bus. During the address portion of the
IA186XL bus cycle, Address Bits [0–15] are
presented on the bus and can be latched
using the ale signal (see next table entry).
During the data portion of the bus cycle, data
are present on these lines.
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Table 7. IA186XL Pin/Signal Descriptions (Continued)
Signal
ale
ardy
bhe_n
Name
ale/qs0
Pin
PLCC
61
PQFP
10
LQFP
29
ardy
55
20
37
bhe_n
64
7
26
Description
address latch enable. Output. Active High.
This signal is used to latch valid address
information on the falling edge of ale during
the address portion of a bus cycle.
asynchronous ready. Input. Indicates to the
processor the addressed memory space or i/o
device will complete the transfer.
byte high enable. Output. Active Low. When
bhe_n is asserted (low), it indicates that the
bus cycle in progress is transferring data over
the upper half of the data bus.
Additionally, bhe_n and ad0 encode the
following bus information:
ad0
0
0
1
1
busy
test_n/busy
47
29
46
clkout
clkout
56
19
36
den_n
den_n
39
38
56
drq0
drq1
18
19
61
60
79
78
drq0
drq1
bhe_n Bus Status
0
1
0
1
Word Transfer
Even Byte Transfer
Odd Byte Transfer
Refresh Operation
(Enhanced Mode)
Note: bhe_n is used as refresh_n in the
IA188XL.
busy. Input. Active High. Used in Enhanced
Mode. When the busy input is asserted, it
causes the IA186XL to suspend operation
during the execution of the Intel 80C187
Numerics Coprocessor instructions.
Operation resumes when the pin is sampled
low.
clock output. Output. The clkout pin
provides a timing reference for inputs and
outputs of the IA186XL. This clock output is
one-half the input clock (clkin) frequency.
The clkout signal has a 50% duty cycle,
transitioning every falling edge of clkin.
data enable. Output. Active Low. This signal
is used to enable bidirectional transceivers in
a buffered system. The den_n signal is
asserted (low) only when data are to be
transferred on the bus.
dma request 0 or 1. Input. Asserted high by
an external device to request DMA Channel 0
or 1 to perform a transfer. These signals are
level-triggered and internally synchronized.
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Table 7. IA186XL Pin/Signal Descriptions (Continued)
Signal
dt/r_n
Name
dt/r_n
Pin
PLCC
40
PQFP
37
LQFP
54
error_n
mcs1_n/error_n
37
40
58
hlda
51
25
42
hlda
hold
hold
50
26
43
int0
int1
int2
int3
int0
int1
int2/inta0_n
int3/inta1_n
45
44
42
41
31
32
35
36
48
49
52
53
Description
data transmit/receive. Output. This signal is
used to control the direction of data flow for
bidirectional buffers in a buffered system.
When dt/r_n is high, the direction indicated is
transmit; when dt/r_n is low, the direction
indicated is receive.
error. Input. Active Low. When this signal is
asserted (low), it indicates that the last
numerics coprocessor operation resulted in an
exception condition.
hold acknowledge. Output. Active High.
When hlda is asserted (high), it indicates that
the IA186XL has relinquished control of the
local bus to another bus master in response to
a HOLD request (see next table entry).
When hlda is asserted, the IA186XL data bus
and control signals are floated allowing
another bus master to drive the signals
directly.
hold. Input. Active High. This signal is a
request indicating that an external bus master
wishes to gain control of the local bus. The
IA186XL will relinquish control of the local bus
between instruction boundaries not
conditioned by a LOCK prefix.
interrupt N (N = 0–3). Input. Active High.
These maskable inputs interrupt program flow
and cause execution to continue at an
interrupt vector of a specific interrupt type as
follows:
inta 0_n
inta 1_n
int2/inta0_n
int3/inta1_n
42
41
35
36
52
53
int0:
int1:
int2:
int3:
Type 12
Type 13
Type 14
Type 15
To allow interrupt expansion, int0 and int1
can be used with the interrupt acknowledge
signals inta0_n and inta1_n (see next table
entries).
interrupt acknowledge. Output. Active low.
When used with external interrupt controllers.
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Table 7. IA186XL Pin/Signal Descriptions (Continued)
Signal
lcs_n
Name
lcs_n
Pin
PLCC
33
PQFP
46
LQFP
63
lock_n
lock_n
48
28
45
mcs0_n
mcs1_n
mcs2_n
mcs3_n
n.c.
nmi
nps_n
pcs0_n
pcs1_n
pcs2_n
pcs3_n
pcs4_n
pcs5_n
pcs6_n
pereq
mcs0_n/pereq
mcs1_n/error_n
mcs2_n
mcs3_n/nps_n
n.c.
38
37
36
35
NA
57
58
59
60
4, 25,
35, 55,
72
46
39
40
41
42
2, 11,
14, 15,
24, 43,
44, 62,
63
30
nmi
mcs3_n/nps_n
pcs0_n
pcs1_n
pcs2_n
pcs3_n
pcs4_n
pcs5_n/a1
pcs6_n/a2
mcs0_n/pereq
35
25
27
28
29
30
31
32
38
42
54
52
51
50
49
48
47
39
60
71
69
68
67
66
65
64
57
47
Description
lower chip select. Output. Active Low. This
pin provides a chip select signal that will be
asserted (low) whenever the address of a
memory bus cycle is within the address space
programmed for that output.
lock. Output. Active Low. When asserted
(low), this signal indicates that the bus cycle in
progress cannot be interrupted. While lock_n
is active, the IA186XL will not service bus
requests such as HOLD.
When resin_n is active, this pin is weakly held
high and must not be driven low.
mid-range memory chip select. Output.
not connected.
non-maskable interrupt. Input. Active High.
When the nmi signal is asserted (high) it
causes a Type 2 interrupt.
numeric processor select
peripheral chip select signals 0–6. Output.
numerics coprocessor external request.
Input. Active High. When asserted (high), this
signal indicates that a data transfer between
an Intel 80C187 Numerics Coprocessor and
the CPU is pending.
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Table 7. IA186XL Pin/Signal Descriptions (Continued)
Signal
qs0
qs1
Name
ale/qs0
wr_n/qs1
Pin
PLCC
61
63
PQFP
10
8
LQFP
29
27
Description
queue status 0, queue status 1. Output.
QS1
0
0
qsmd_n
rd_n
rd_n/qsmd_n
rd_n/qsmd_n
62
62
9
9
28
28
res_n
res_n
24
55
73
reset
reset
57
18
34
s0_n
s1_n
s2_n
s0_n
s1_n
s2_n
52
53
54
23
22
21
40
39
38
QS0
0 No Queue operations
1 First byte of opcode pulled from
Queue
1
1 Additional bytes pulled from
Queue
1
0 Queue is flushed
queue status mode. Input. Sampled at reset.
read. output. Active Low. When asserted
(low), rd_n indicates that the accessed
memory or I/O device must drive data from the
location being accessed onto the data bus.
res_n. Input. Forces the processor to
terminate present activity, reset the internal
logic, and enter a dormant state until res_n
goes high.
reset is an output signal indicating the CPU is
being reset. It can be used as a system reset.
status [2:0]_n are outputs. During a bus
cycle, the status (i.e., type) of cycle is encoded
on these lines as follows:
s2_n s1_n
s3
s4
s5
s6
srdy
a16/s3
a17/s4
a18/s5
a19/s6
68
67
66
65
3
4
5
6
21
22
23
24
srdy
49
27
44
s0_n
Bus Cycle Status
0
0
0
Interrupt Acknowledge
0
0
1
Read I/O
0
1
0
Write I/O
0
1
1
Processor HALT
1
0
0
Queue Instruction Fetch
1
0
1
Read Memory
1
1
0
Write Memory
1
1
1
No Bus Activity
status [6:3] are Outputs.
Bus Cycle A19/s6 A18/s5 A17/s4 A16/s3
T1
A19
A18
A17
A16
T2
N
0
0
0
T3
N
0
0
0
Tw
N
0
0
0
T4
N
0
0
0
____________
N = 0 for CPU bus cycle.
N = 1 for DMA or refresh cycle.
synchronous ready. Input.
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Table 7. IA186XL Pin/Signal Descriptions (Continued)
Signal
test_n
Name
test_n/busy
Pin
PLCC
47
PQFP
29
LQFP
46
tmr in 0
tmr in 0
20
59
77
tmr in 1
tmr in 1
21
58
76
tmr out 0
tmr out 0
22
57
75
tmr out 1
tmr out 1
23
56
74
ucs_n
ucs_n
34
45
62
vcc
vcc
9, 43
33, 34,
72, 73
vss
vss
26,
60
12, 13,
53
wr_n/qs1
63
8
10, 11,
20, 50,
51, 61
30, 31,
41, 70,
80
27
x1
x2
59
58
16
17
32
33
wr_n
x1
x2
Description
test. Input. Active Low. When the test_n
input is high (i.e., not asserted), it causes the
IA186XL to suspend operation during the
execution of the WAIT instruction. Operation
resumes when the pin is sampled low
(asserted).
timer 0 input. Input. Depending on the Timer
Mode programmed for Timer 0, this input is
used either as clock input or a control signal.
timer 1 input. Input. Depending on the Timer
Mode programmed for Timer 1, this input is
used either as clock input or a control signal.
timer 0 output. Output. Depending on the
Timer Mode programmed for Timer 0, this
output can provide a single pulse or a
repetitive waveform.
timer 1 output. Output. Depending on the
Timer Mode programmed for Timer 1, this
output can provide a single clock or a
repetitive waveform.
upper chip select. Output. Active Low. This
pin provides a chip select signal that will be
asserted (low) whenever the address of a
memory bus cycle is within the address space
programmed for that output.
Power (VCC). This pin provides power for the
IA186XL device. It must be connected to a
+5V DC power source.
Ground (VSS). This pin provides the digital
ground (0V) for the IA186XL. It must be
connected to a VSS board plane.
write. Output. Active Low. When asserted
(low), wr_n indicates that data available on
the data bus are to be latched into the
accessed memory or I/O device.
x1 and x2 are inputs for the crystal
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2.3
Data Sheet
January 9, 2015
IA188XL Pin/Signal Descriptions
Descriptions of the pin and signal functions for the IA188XL microcontroller are provided in
Table 8.
Several of the IA188XL pins have different functions depending on the operating mode of the
device. Each of the different signals supported by a pin is listed and defined in Table 8, indexed
alphabetically in the first column of the table. Additionally, the name of the pin associated with
the signal as well as the pin numbers for the PLCC, QFP, and LQFP packages are provided in the
“Pin” column.
Table 8. IA188XL Pin/Signal Descriptions
Signal
a1
a2
a16
a17
a18
a19
ad0
ad1
ad2
ad3
ad4
ad5
ad6
ad7
a8
a9
a10
a11
a12
a13
a14
a15
Name
pcs5_n/a1
pcs6_n/a2
a16/s3
a17/s4
a18/s5
a19/s6
ad0
ad1
ad2
ad3
ad4
ad5
ad6
ad7
a8
a9
a10
a11
a12
a13
a14
a15
Pin
PLCC
31
32
68
67
66
65
17
15
13
11
8
6
4
2
16
14
12
10
7
5
3
1
PQFP
48
47
3
4
5
6
64
66
68
70
74
76
78
80
65
67
69
71
75
77
79
1
LQFP
65
64
21
22
23
24
1
3
6
8
12
14
16
18
2
5
7
9
13
15
17
19
Description
Latched address bit a1. Output.
Latched address bit a2. Output.
address bits 16–19. Output.
These pins provide the four most-significant
bits of the Address Bus during T1 only. During
T2, T3, TW and T4 they provide bus status.
address/data bits 0 - 15. Input/Output.
These pins provide the multiplexed Address
Bus and Data Bus. During the address
portion of the IA188XL bus cycle, address bits
0 through 15 are presented on the bus and
can be latched using the ale signal (see next
table entry). During the data portion of the
IA188XL bus cycle, data are present on these
lines.
valid address information is provided for the
entire bus cycle
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Table 8. IA188XL Pin/Signal Descriptions (Continued)
Signal
ale
Name
ale/qs0
Pin
PLCC
61
PQFP
10
LQFP
29
ardy
ardy
55
20
37
clkout
clkout
56
19
36
den_n
den_n
39
38
56
drq0
drq1
drq0
drq1
18
19
61
60
79
78
dt/r_n
dt/r_n
40
37
54
Description
address latch enable. Output. Active High.
This signal is used to latch address
information during the address portion of a
bus cycle.
asynchronous ready. Input. Indicates to the
processor the addressed memory space or i/o
device will complete the transfer.
clock output. Output. The clkout pin
provides a timing reference for inputs and
outputs of the IA188XL. This clock output is
one-half the input clock (clkin) frequency.
The clkout signal has a 50% duty cycle,
transitioning every falling edge of clkin.
data enable. Output. Active Low. This signal
is used to enable bidirectional transceivers in
a buffered system. The den_n signal is
asserted (low) only when data are to be
transferred on the bus.
dma request 0 or 1. Input. Asserted high by
an external device to request DMA Channel 0
or 1 to perform a transfer. These signals are
level-triggered and internally synchronized
data transmit/receive. Output. This signal is
used to control the direction of data flow for
bidirectional buffers in a buffered system.
When dt/r_n is high, the direction indicated is
transmit; when dt/r_n is low, the direction
indicated is receive.
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Table 8. IA188XL Pin/Signal Descriptions (Continued)
Signal
hlda
Name
hlda
Pin
PLCC
51
PQFP
25
LQFP
42
hold
hold
50
26
43
int0
int1
int2
int3
int0
int1
int2/inta0_n
int3/inta1_n
45
44
42
41
31
32
35
36
48
49
52
53
Description
hold acknowledge. Output. Active High.
When hlda is asserted (high), it indicates that
the IA188XL has relinquished control of the
local bus to another bus master in response to
a HOLD request (see next table entry).
When hlda is asserted, the IA188XL data bus
and control signals are floated allowing
another bus master to drive the signals
directly.
hold. Input. Active High. This signal is a
request indicating that an external bus master
wishes to gain control of the local bus. The
IA188XL will relinquish control of the local bus
between instruction boundaries not
conditioned by a LOCK prefix.
interrupt N (N = 03). Input. Active High.
These maskable inputs interrupt program flow
and cause execution to continue at an
interrupt vector of a specific interrupt type as
follows:
inta 0_n
inta 1_n
lcs_n
int2/inta0_n
int3/inta1_n
lcs_n
42
41
33
35
36
46
52
53
63
int0:
int1:
int2:
int3:
Type 12
Type 13
Type 14
Type 15
To allow interrupt expansion, int0 and int1
can be used with the interrupt acknowledge
signals inta0_n and inta1_n (see next table
entries).
interrupt acknowledge. Output. Active low.
When used with external interrupt controllers.
lower chip select. Output. Active Low. This
pin provides a chip select signal that will be
asserted (low) whenever the address of a
memory bus cycle is within the address space
programmed for that output.
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Table 8. IA188XL Pin/Signal Descriptions (Continued)
Signal
lock_n
Name
lock_n
mcs0_n mcs0_n/pereq
mcs1_n mcs1_n/error_n
mcs2_n
mcs2_n
mcs3_n mcs3_n/nps_n
n.c.
n.c.
Pin
PLCC
48
38
37
36
35
NA
PQFP
28
nmi
nmi
46
39
40
41
42
2, 11,
14, 15,
24, 43,
44, 62,
63
30
pcs0_n
pcs1_n
pcs2_n
pcs3_n
pcs4_n
pcs5_n
pcs6_n
qs0
qs1
pcs0_n
pcs1_n
pcs2_n
pcs3_n
pcs4_n
pcs5_n/a1
pcs6_n/a2
ale/qs0
wr_n/qs1
25
27
28
29
30
31
32
61
63
54
52
51
50
49
48
47
10
8
LQFP
45
57
58
59
60
4, 25,
35, 55,
72
71
69
68
67
66
65
64
29
27
47
Description
lock. Output. Active Low. When asserted
(low), this signal indicates that the bus cycle in
progress cannot be interrupted. While lock_n
is active, the IA188XL will not service bus
requests such as HOLD.
When resin_n is active, this pin is weakly held
high and must not be driven low.
mid-range memory chip select. Output.
not connected
non-maskable interrupt. Input. Active High.
When the nmi signal is asserted (high) it
causes a Type 2 interrupt .
peripheral chip select signals 0–6. Output.
queue status 0, queue status 1. Output.
QS1
0
0
qsmd_n
rd_n
rd_n/qsmd_n
rd_n/qsmd_n
62
62
9
9
28
28
QS0
0 No Queue operations
1 First byte of opcode pulled from
Queue
1
1 Additional bytes pulled from
Queue
1
0 Queue is flushed
queue status mode. Input. Sampled at reset.
read. output. Active Low. When asserted
(low), rd_n indicates that the accessed
memory or I/O device must drive data from
the location being accessed onto the data
bus.
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Table 8. IA188XL Pin/Signal Descriptions (Continued)
Signal
res_n
Name
res_n
Pin
PLCC
24
PQFP
55
LQFP
73
reset
reset
57
18
34
rfsh_n
rfsh_n
64
7
26
s0_n
s1_n
s2_n
s0_n
s1_n
s2_n
52
53
54
23
22
21
40
39
38
s3
s4
s5
s6
a16/s3
a17/s4
a18/s5
a19/s6
68
67
66
65
3
4
5
6
21
22
23
24
srdy
test_n
srdy
test_n/busy
49
47
27
29
44
46
tmr in 0
tmr in 0
20
59
77
tmr in 1
tmr in 1
21
58
76
Description
res_n. Input. Forces the processor to
terminate its present activity, reset the internal
logic, and enter a dormant state until res_n
goes high.
reset is an output signal indicating the CPU is
being reset. It can be used as a system reset.
refresh. Output. rfsh_n is asserted low to
indicate a refresh bus cycle.
status [2:0]_n are outputs. During a bus cycle
the status (i.e., type) of cycle is encoded on
these lines as follows:
s2_n s1_n s0_n Bus Cycle Status
0
0
0
Interrupt Acknowledge
0
0
1
Read I/O
0
1
0
Write I/O
0
1
1
Processor HALT
1
0
0
Queue Instruction Fetch
1
0
1
Read Memory
1
1
0
Write Memory
1
1
1
No Bus Activity
status [6:3] are outputs.
Bus Cycle A19/s6 A18/s5 A17/s4 A16/s3
T1
A19
A18
A17
A16
T2
N
0
0
0
T3
N
0
0
0
Tw
N
0
0
0
T4
N
0
0
0
____________
N = 0 for CPU bus cycle.
N = 1 for DMA or refresh cycle.
synchronous ready. Input.
test. Input. Active Low. When the test_n
input is high (i.e., not asserted), it causes the
IA188XL to suspend operation during the
execution of the WAIT instruction. Operation
resumes when the pin is sampled low
(asserted).
timer 0 input. Input. Depending on the Timer
Mode programmed for Timer 0, this input is
used either as clock input or a control signal.
timer 1 input. Input. Depending on the Timer
Mode programmed for Timer 1, this input is
used either as clock input or a control signal.
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Table 8. IA188XL Pin/Signal Descriptions (Continued)
Signal
tmr out 0
Name
tmr out 0
Pin
PLCC
22
PQFP
57
LQFP
75
tmr out 1
tmr out 1
23
56
74
ucs_n
ucs_n
34
45
62
vcc
vcc
9, 43
33, 34,
72, 73
vss
vss
26,
60
12, 13,
53
wr_n
wr_n/qs1
63
8
10, 11,
20, 50,
51, 61
30, 31,
41, 70,
80
27
x1
x2
x1
x2
59
58
16
17
32
33
Description
timer 0 output. Output. Depending on the
Timer Mode programmed for Timer 0, this
output can provide a single pulse or a
repetitive waveform.
timer 1 output. Output. Depending on the
Timer Mode programmed for Timer 1, this
output can provide a single pulse or a
repetitive waveform.
upper chip select. Output. Active Low. This
pin provides a chip select signal that will be
asserted (low) whenever the address of a
memory bus cycle is within the address space
programmed for that output.
Power (VCC). This pin provides power for the
IA188XL device. It must be connected to a
+5V DC power source.
Ground (VSS). This pin provides the digital
ground (0V) for the IA186XL. It must be
connected to a VSS board plane.
write. Output. Active Low. When asserted
(low), wr_n indicates that data available on
the data bus are to be latched into the
accessed memory or I/O device.
x1 and x2 are inputs for the crystal
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3.
Data Sheet
January 9, 2015
Maximum Ratings, Thermal Characteristics, and DC Parameters
For the Innovasic Semiconductor IA186XL and IA188XL microcontrollers, the absolute
maximum ratings, thermal characteristics, and DC parameters are provided in Tables 9
through 11, respectively.
Table 9. IA186XL and IA188XL Absolute Maximum Ratings
Parameter
Storage Temperature
Supply Voltage with Respect to vss
Voltage on Pins other than Supply with Respect to vss
Rating
−40°C to +125°C
−0.3V to +6.0V
−0.3V to +(Vcc + 0.3)V
Table 10. IA186XL and IA188XL Thermal Characteristics
Symbol
TA
PD
ΘJa
TJ
Characteristic
Ambient Temperature
Power Dissipation
68-Lead PLCC Package
80-Lead PQFP Package
80-Lead LQFP Package
Average Junction Temperature
Value
-40°C to 85°C
MHz ICC V/1000
32
46
52
TA + (PD ΘJa)
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Units
°C
W
°C/W
°C
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Table 11. IA186XL and IA188XL DC Parameters
Symbol
5.0 Volt
Operation
VCC
Parameter
Min
Max
Supply Voltage
4.5
5.5
V
–
VIL
Input Low Voltage
−0.3
0.3
VCC
V
Input Hysteresis on
resin_n = 0.50V
VIH
Input High Voltage
VCC + 0.3
V
_
VOL
VOH
Output Low Voltage VCC = 5.0V
Output High Voltage VCC = 4.5V
Input Leakage Current for Pins: ad0ad15, ad0-ad7 (IA188XL), resin_n,
clkin, t0in_in, t1in_in, drq0, drq1,
int0, int1, rmi, hold, srdy, ardy,
int2_inta0_n, int3_inta1_n
0.4
-
V
V
IOL = 12 mA
IOH = −12 mA
–
±1
µA
0V ≤ VIN ≤ VCC
-.227
-.833
mA
VIN = 0V
–
0
0
± 10
90
5
5
µA
mA
pF
pF
0.45V ≤ VOUT ≤ VCC
TF = 1 MHz
TF = 1 MHz
0.7
VCC
–
3.5
Units
Notes
ILEAK
Input Leakage Current for pin
(@5V): ucs_n, lcs_n,
mcs0_n_pereq, mcs1_n_error_n,
rd_n, test_n_busy
ILO
Output Leakage Current
IID
Supply Current (IDLE) - @ 50 MHz
CIN
Input Pin Capacitance
COUT
Output Pin Capacitance
Operating temperature is −40°C to 85°C.
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4.
Data Sheet
January 9, 2015
Functional Description
The follow descriptions apply to both the IA186XL and IA188XL unless otherwise noted.
Module descriptions are followed by descriptions of special operating modes.
Additional information on the operation and programming of the 80C186XL/80C188XL can be
found in the following Intel® publications:
80C186XL/80C188XL and 80L186XL/80L188XL 16-Bit High-Integration Embedded
Processors (272433-006)
80C186XL/80C188XL Microprocessor User’s Manual (270830-00n)
4.1
Device Architecture
Architecturally, the IA186XL microcontrollers include the following functional modules:
Bus Interface Unit
Clock Generator
Interrupt Control Unit
Timer/Counter Unit
Chip-Select Unit
Refresh Control Unit
Power-Save Control
DMA Unit
A functional block diagram of the IA186XL/IA188XL is shown in Figure 10. Descriptions of
the functional modules are provided in the follow subsections.
Control registers for the peripheral modules are located in a 256 byte control block. This block
can be mapped to either memory or I/O space. The offset map for addressing these registers is
given in Table 12.
4.1.1
Bus Interface Unit
A local bus controller generates the local bus control signals. It also employs a hold/hlda
protocol for relinquishing the local bus to other bus masters. Its outputs can be used to enable
external buffers and to direct the flow of data on and off the local bus. The bus controller is
responsible for generating 20 bits of address, read and write strobes, bus-cycle status information
and data. This controller is also responsible for reading data from the local bus during a read
operation. Synchronous and asynchronous ready input pins are provided to extend a bus cycle
beyond the minimum four clocks. The bus controller also generates two control signals (den_n
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and dt/r_n) when interfacing to external transceiver chips. This capability allows the addition of
transceivers for simple buffering of the multiplexed address/data bus. During reset, the local bus
controller performs the following actions:
1.
2.
3.
4.
5.
6.
Floats ad0–15 (ad0–8), a16–19 (a9–a19), bhe_n (rfsh_n), dt/r_n
Drives ale LOW
Drives hlda LOW
Drives lock_n HIGH and then floats
Drives den_n, rd_n, and wr_n HIGH for one clock cycle, then floats them
Drives s0_n, s1_n and s2_n to the inactive state (all HIGH) and then floats them
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Figure 10. IA186XL/IA188XL Functional Block Diagram
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The rd_n/qsmd_n, ucs_n, lcs_n, mcs0_n/pereq, mcs1_n/error_n, and test_n/busy pins include
internal pull-ups that are active while res_n is applied. The state of these pins during reset
controls invoking various alternative operating modes as described below:
1 ONCE Mode – ucs_n and lcs_n driven low.
2 Enhanced Mode – test_n/busy driven low then high.
3 Queue Status Mode – rd_n/qsmd_n driven low.
4.1.2
Clock Generator
The IA186XL/IA188XL uses an on-chip clock generator to supply internal and external clocks.
The clock generator makes use of a crystal oscillator and includes a divide-by-two counter.
Figure 11 shows the various operating modes of the clock circuit. The clock circuit can use
either a parallel resonant fundamental mode crystal network (A) or a third-overtone mode crystal
network (B), or it can be driven by an external clock source (C).
The following parameters are recommended when choosing a crystal:
4.1.3
Temperature Range: Application Specific
ESR (Equivalent Series Resistance): 60 max
C0 (Shunt Capacitance of Crystal): 7.0 pF max
CL (Load Capacitance): 20 pF ± 2 pF
Drive Level: 2 mW max
Interrupt Control Unit
The IA186XL operates with several interrupt sources. A separate Interrupt Control Unit
manages all sources based on priority to be individually handled by the CPU. The DMA and
Timers produce internally generated requests. There are five externally generated interrupts - a
single NMI and 4 others.
4.1.4
Timer/Counter Unit
There are three programmable internal timers in the IA186XL. Two are very flexible and can be
configured for many tasks. Each of these has a single input used for either control or clocking,
and a single output to generate waveforms. The third timer is simpler and can only be clocked
from an internal source. It can be used for simple timing applications. It can also be used as a
prescaler to the other two timers or as a trigger for DMA requests.
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Figure 11. Clock Circuit Connection Options
4.1.5
Chip-Select/Ready Generation Logic
The IA186XL provides programmable chip-select generation for memories and peripherals. The
chip can be programmed to provide READY or WAIT state generation. It can also provide
latched address bits A1 and A2. Chip select behavior is the same whether the access is generated
by the CPU or the DMA.
A total of 6 chip selects are dedicated for different memory ranges. A single select for upper
memory (ucs_n), with a fixed end address of FFFFFH, is good for use as system memory since
the reset vector points to FFFF0H. A single select for lower memory (lcs_n), with a fixed start
address of 0H, is good for interrupt vectors which reside beginning at address 00000H. There
are also four selects for anywhere else (exclusive of ucs_n and lcs_n areas) in the 1 Mbyte
memory in the user-locatable memory block. For the middle chip selects, the base address and
block size are programmable, while only the block size for the upper and lower chip selects are
programmable.
Seven additional chip selects can be programmed to access either peripherals or memory in
seven contiguous fixed blocks of 128 bytes each. A single base address is programmable for
these chip selects.
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A programmable number of wait states (0 - 3) can be used to generate an internal ready for each
chip select range. The IA186XL can be programmed to use or not use the external ready signal
with or without the internal wait states from the internal ready being factored in.
At reset, the Chip-Select/Ready Logic will be configured as follows:
1. All chip-select outputs will be driven HIGH
2. Exiting RESET, the UCS control register (UMCS) is set to FFFBH, providing chip
select to a 1-Kbyte block of memory with 3 wait states in combined with external
ready.
3. All other chip select control registers are undefined after reset. The CPU must
configure these control registers before the corresponding chips selects will become
active.
4.1.6
DMA
The IA186XL includes a DMA controller with two channels. Transfers can occur between any
combination of Memory and I/O space, to either odd or even address. Data size can be either 8
or 16 bits, except on the IA188XL it can only be 8 bits.
There are separate 20-bit source and destination pointers for each channel. These pointers can be
configured to increment, decrement or stay static after each transfer. For word transfers, pointers
are incremented or decrement by two and for byte transfers, by one. One bus cycle is required to
fetch data and one cycle to deposit it.
4.1.7
DRAM Refresh Control Unit
When in Enhanced Mode, the IA186XL supports DRAM refresh cycles. Reads are
automatically generated at a programmable time interval. If enabled, chip selects are active for
these reads.
4.1.8
Power-Save Control
When in Enhanced Mode, the IA186XL supports a power save mode of operation. The internal
clock frequency is divided by a programmable amount. This affects all internal logic including,
timers, the refresh control unit and clkout generation. Timers and the refresh control unit need to
be reprogrammed accordingly when going in and out of power save if you wish to maintain the
same real time references.
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4.2
Data Sheet
January 9, 2015
Operating Modes
During reset the IA186XL can be configured to enable special operating modes described as
follows.
4.2.1
Enhanced Mode
If Enhanced Mode is enabled, the IA186XL has DRAM refresh, Power-Save and coprocessor
support available in addition to the normal features available in Compatible Mode. Enhanced
Mode will be invoked automatically if a coprocessor is attached. It can also be entered by tying
the reset output to the test_n/busy input. An internal pull-up keeps the part from entering
Enhanced mode during normal operation.
When not in Enhanced Mode, none of the Enhanced Mode registers can be accessed. QueueStatus functions, except for the coprocessor support, will be available when not in Enhanced
Mode.
4.2.2
Queue Status Mode
When Queue Status Mode is enabled, information about the instruction queue is output on the
ale/qs0 and wr_n/qs1 pins. To enter Queue Status Mode, the rd_n input should be tied low. It is
sampled at reset, and if low, Queue Status Mode is entered. An internal pull-up keeps the part
from entering Queue Status mode during normal operation.
4.2.3
ONCE Mode
ONCE mode is a special test mode where all pins are set to a high impedance state. ONCE mode
is entered by forcing lcs_n and ucs_n low during reset. These pins are sampled on the rising
edge of res but should be held low for at least a full clock cycle after res goes high. ONCE mode
is exited by reseting the part with lcs_n and ucs_n high. Internal pull-ups keep the part from
entering ONCE mode during normal operation.
4.2.4
Math Coprocessor (IA186XL Only)
When Enhanced mode is enabled, the IA186XL is configured to interface with a math
coprocessor via three of the middle chip select pins. Pin mcs0/pereq is used for Processor
Extension Request. Pin mcs1/error is used for coprocessor error indication. Pin mcs3/nps is
used for Numeric Processor Select.
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Table 12. Internal Register Map
PCB
Offset
00H
02H
04H
06H
08H
0AH
0CH
0EH
10H
12H
14H
16H
18H
1AH
1CH
1EH
20H
22H
24H
26H
28H
2AH
2CH
2EH
30H
32H
34H
36H
38H
3AH
3CH
3EH
Function
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
EOI
POLL
POLLSTS
IMASK
PRIMSK
INSERV
REQST
INSTS
TCUCON
DMA0CON
DMA1CON
I0CON
I1CON
I2CON
I3CON
PCB
Offset
40H
42H
44H
46H
48H
4AH
4CH
4EH
50H
52H
54H
56H
58H
5AH
5CH
5EH
60H
62H
64H
66H
68H
6AH
6CH
6EH
70H
72H
74H
76H
78H
7AH
7CH
7EH
Function
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
T0CNT
T0CMPA
T0CMPB
T0CON
T1CNT
T1CMPA
T1CMPB
T1CON
T2CNT
T2CMPA
Reserved
T2CON
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
PCB
Offset
80H
82H
84H
86H
88H
8AH
8CH
8EH
90H
92H
94H
96H
98H
9AH
9CH
9EH
A0H
A2H
A4H
A6H
A8H
AAH
ACH
AEH
B0H
B2H
B4H
B6H
B8H
BAH
BCH
BEH
Function
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
UMCS
LMCS
PACS
MMCS
MPCS
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
PCB
Offset
C0H
C2H
C4H
C6H
C8H
CAH
CCH
CEH
D0H
D2H
D4H
D6H
D8H
DAH
DCH
DEH
E0H
E2H
E4H
E6H
E8H
EAH
ECH
EEH
F0H
F2H
F4H
F6H
F8H
FAH
FCH
FEH
Function
D0SRCL
D0SRCH
D0DSTL
D0DSTH
D0TC
D0CON
Reserved
Reserved
D1SRCL
D1SRCH
D1DSTL
D1DSTH
D1TC
D1CON
Reserved
Reserved
RFBASE
RFTIME
RFCON
Reserved
Reserved
Reserved
Reserved
Reserved
PWRSAV
PWRCON
Reserved
1
Step ID
Reserved
Reserved
Reserved
RELREG
Note:
1
The Step ID register (offset 0xF6) for Revision 1 of the Innovasic device is read-only, and is
uniquely identified in software by having a value of 0x0081. The original Intel device
established a value between 0x0000 and 0x0003, depending on the revision of the part.
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5.
AC Specifications
5.1
Major Cycle Timings – Read Cycle
TA = -40○C to +85○C, VCC = 5V + 10%
All timings are measured at 1.5V and 50 pF loading on CLKOUT unless otherwise noted.
All output test conditions are with CL = 50 pF.
For AC tests, input VIL = 0.45V and VIH = 2.4V except at X1 where VIH = VCC – 0.5V.
Table 13. Major Cycle Timings – Read Cycle
Values
Min
8
3
3
3
3
0
3
10
Symbol
Parameter
TDVCL
TCLDX
TCHSV
TCHSH
TCLAV
TCLAX
TCLDV
TCHDX
TCHLH
TLHLL
TCHLL
TAVLL
Data in Setup (A/D)
Data in Hold (A/D)
Status Active Delay
Status Inactive Delay
Address Valid Delay
Address Hold
Data Valid Delay
Status Hold Time
ALE Active Delay
ALE Width
ALE Inactive Delay
Address Valid to ALE Low
TLLAX
Address Hold from ALE Inactive
TAVCH
TCLAZ
TCLCSV
TCXCSX
TCHCSX
TDXDL
TCVCTV
TCVDEX
TCHCTV
TCLLV
TAZRL
TCLRL
TRLRH
TCLRH
TRHLH
TRHAV
Address Valid to Clock High
Address Float Delay
Chip-Select Active Delay
Chip-Select Hold from Command Inactive
Chip-Select Inactive Delay
DEN Inactive to DT/R Low
Control Active Delay 1
DEN Inactive Delay
Control Active Delay 2
LOCK Valid/Invalid Delay
Address Float to RD Active
RD Active Delay
RD Pulse Width
RD Inactive Delay
RD Inactive to ALE High
RD Inactive to Address Active
Max
Test Conditions
TCLCH - 10
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
Equal Loading
TCHCL - 8
ns
Equal Loading
20
20
20
20
20
TCLCL - 15
20
0
TCLAX
3
TCLCH - 10
3
0
3
3
3
3
0
3
2TCLCL - 15
3
TCLCH - 14
TCLCL - 15
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Unit
20
20
17
17
17
20
17
20
20
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
Equal Loading
Equal Loading
Equal Loading
Equal Loading
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TCHSH (1) (2)
(3)
(4)
(6)
(5)
Figure 12. Read Cycle Waveforms
Please note that pins indicated in the parentheses are for the IA188XL version.
Notes:
(1) The OEM part (80C186XL) operates differently in that it deasserts on the falling edge of
CLKOUT.
(2) Status is inactive in the state preceding T4.
(3) Only TCLCSV is applicable if latched A1 and A2 are selected instead of PCS5 and PCS6.
(4) This applies when a write cycle is followed by read cycle.
(5) This is T1 of next bus cycle.
(6) This changes in the T-state preceding the next bus cycle if followed by a write.
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Major Cycle Timings – Write Cycle
5.2
TA = -40○C to +85○C, VCC = 5V + 10%
All timings are measured at 1.5V and 50 pF loading on CLKOUT unless otherwise noted.
All output test conditions are with CL = 50 pF.
For AC tests, input VIL = 0.45V and VIH = 2.4V except at X1 where VIH = VCC – 0.5V.
Table 14. Major Cycle Timings – Write Cycle
Values
Min
3
3
3
0
3
10
Parameter
TCHSV
TCHSH
TCLAV
TCLAX
TCLDV
TCHDX
TCHLH
TLHLL
TCHLL
Status Active Delay
Status Inactive Delay
Address Valid Delay
Address Hold
Data Valid Delay
Status Hold Time
ALE Active Delay
ALE Width
ALE Inactive Delay
TAVLL
Address Valid to ALE Low
TCLCH - 10
ns
Equal Loading
TLLAX
Address Hold from ALE Inactive
TCHCL - 10
ns
Equal Loading
TAVCH
TCLDOX
TCVCTV
TCVCTX
TCLCSV
Address Valid to Clock High
Data Hold Time
Control Active Delay 1
Control Inactive Delay
Chip-Select Active Delay
0
3
3
3
3
ns
ns
ns
ns
ns
TCXCSX
Chip-Select Hold from Command Inactive
TCHCSX
Chip-Select Inactive Delay
3
TDXDL
DEN Inactive to DT/R Low
0
TCLLV
TWLWH
LOCK Valid/Invalid Delay
WR Pulse Width
3
2TCLCL - 15
TWHLH
WR Inactive to ALE High
TCLCH - 14
ns
Equal Loading
TWHDX
Data Hold after WR
TCLCL - 10
ns
Equal Loading
TWHDEX
WR Inactive to DEN Inactive
TCLCH - 10
ns
Equal Loading
Max
20
20
20
20
20
TCLCL - 15
20
20
17
20
TCLCH - 10
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Unit
Test
Conditions
Symbol
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
17
ns
ns
17
Equal Loading
Equal Loading
ns
ns
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TCHSH (1) (2)
(3)
(4)
(6)
(5)
Figure 13. Write Cycle Waveforms
Please note that pins indicated in the parentheses are for the IA188XL version.
Notes:
(1) The OEM part (80C186XL) operates differently in that it deasserts on the falling edge of
CLKOUT.
(2) Status is inactive in the state preceding T4.
(3) Only TCLCSV is applicable if latched A1 and A2 are selected instead of PCS5 and PCS6.
(4) This applies when a write cycle is followed by a read cycle.
(5) This is T1 of next bus cycle.
(6) This changes in the T-state preceding the next bus cycle if followed by a read, INTA or halt.
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Major Cycle Timings – Interrupt Acknowledge Cycle
5.3
TA = -40○C to +85○C, VCC = 5V + 10%
All timings are measured at 1.5V and 50 pF loading on CLKOUT unless otherwise noted.
All output test conditions are with CL = 50 pF.
For AC tests, input VIL = 0.45V and VIH = 2.4V except at X1 where VIH = VCC – 0.5V.
Table 15. Major Cycle Timings – Interrupt Acknowledge Cycle
Values
Min
8
3
3
3
3
0
0
3
10
Symbol
Parameter
TDVCL
TCLDX
TCHSV
TCHSH
TCLAV
TAVCH
TCLAX
TCLDV
TCHDX
TCHLH
TLHLL
TCHLL
Data in Setup (A/D)
Data in Hold (A/D)
Status Active Delay
Status Inactive Delay
Address Valid Delay
Address Valid to Clock High
Address Hold
Data Valid Delay
Status Hold Time
ALE Active Delay
ALE Width
ALE Inactive Delay
TAVLL
Address Valid to ALE Low
TCLCH - 10
ns
TLLAX
Address Hold to ALE Inactive
TCHCL - 10
ns
TCLAZ
TCVCTV
TCVCTX
Address Float Delay
Control Active Delay 1
Control Inactive Delay
TDXDL
DEN Inactive to DT/R Low
0
TCHCTV
Control Active Delay 2
3
20
ns
TCVDEX
DEN Inactive Delay (Non-Write Cycles)
3
17
ns
TCLLV
LOCK Valid/Invalid Delay
3
17
ns
Max
20
20
20
20
20
TCLCL - 15
20
TCLAX
3
3
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20
17
17
Unit
Test
Conditions
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
Equal
Loading
Equal
Loading
ns
ns
ns
ns
Equal
Loading
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TCHSH (1) (2)
(3)
(4)
(5)
(7)
(6)
Figure 14. Interrupt Acknowledge Cycle Waveforms
Please note that pins indicated in the parentheses are for the IA188XL version.
Notes:
(1)
(2)
(3)
(4)
(5)
(6)
The OEM part (80C186XL) operates differently in that it deasserts on the falling edge of CLKOUT.
Status is inactive in the state preceding T4.
The data hold time lasts only until INTA goes inactive, even if the INTA transition occurs prior to TCLDX (min).
INTA occurs one clock later in Slave Mode.
This applies when a write cycle is followed by an interrupt acknowledge cycle.
LOCK is active upon T1 of the first interrupt acknowledge cycle, and inactive upon T2 of the second interrupt acknowledge
cycle.
(7) Changes in T-state preceding next bus cycle if followed by write.
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5.4
Data Sheet
January 9, 2015
Software Halt Cycle Timings
TA = -40○ C to +85○ C, VCC = 5V + 10%
All timings are measured at 1.5V and 50 pF loading on CLKOUT unless otherwise noted.
All output test conditions are with CL = 50 pF.
For AC tests, input VIL = 0.45V and VIH = 2.4V except at X1 where VIH = VCC – 0.5V.
Table 16. Software Halt Cycle Timings
Symbol
Parameter
TCHSV
Values
Unit
Min
Max
Status Active Delay
3
20
ns
TCHSH
Status Inactive Delay
3
20
ns
TCLAV
Address Valid Delay
3
20
ns
TCHLH
ALE Active Delay
20
ns
TLHLL
ALE Width
TCHLL
ALE Inactive Delay
20
ns
TDXDL
DEN Inactive to DT/R Low
0
ns
TCHCTV
Control Active Delay 2
20
ns
TCLCL - 15
3
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Test
Conditions
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Equal
Loading
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TCHSH (1)
(2)
Figure 15. Software Halt Cycle Waveforms
Please note that pins indicated in the parentheses are for the IA188XL version.
Notes:
(1) The OEM part (80C186XL) operates differently in that it deasserts on the falling edge of CLKOUT.
(2) This applies when a write cycle is followed by a halt cycle.
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5.5
Data Sheet
January 9, 2015
Clock Timings
TA = -40○C to +85○C, VCC = 5V + 10%
All timings are measured at 1.5V and 50 pF loading on CLKOUT unless otherwise noted.
All output test conditions are with CL = 50 pF.
For AC tests, input VIL = 0.45V and VIH = 2.4V except at X1 where VIH = VCC – 0.5V.
Table 17. Clock Timings
Symbol
Parameter
TCKIN
Values
Min
Max
CLKIN Period
20
∞
TCLCK
CLKIN Low Time
8
TCHCK
CLKIN High Time
8
TCKHL
CLKIN Fall Time
TCKLH
∞
Unit
Test
Conditions
ns
ns
1.5V(2)
ns
1.5V(2)
5
ns
3.5 to 1.0V
CLKIN Rise Time
5
ns
1.0 to 3.5V
TCICO
CLKIN to CLKOUT Skew
17
ns
TCLCL
CLKOUT Period
∞
ns
TCLCH
CLKOUT Low Time
0.5 TCLCL - 5
ns
CL = 100 pF(3)
TCHCL
CLKOUT High Time
0.5 TCLCL - 5
ns
CL = 100 pF(4)
TCH1CH2
CLKOUT Rise Time
6
ns
1.0 to 3.5V
TCL2CL1
CLKOUT Fall Time
6
ns
3.5 to 1.0V
40
∞
NOTES:
1. External clock applied to X1 and X2 not connected.
2. TCLCK and TCHCK (CLKIN Low and High times) should not have a duration less than 40% of T CKIN.
3. Tested under worst case conditions: VCC = 5.5V. TA = 70○C.
4. Tested under worst case conditions: VCC = 4.5V. TA = 0○C.
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5.6
Data Sheet
January 9, 2015
Ready, Peripheral and Queue Status Timings
TA = -40○C to +85○C, VCC = 5V + 10%
All timings are measured at 1.5V and 50 pF loading on CLKOUT unless otherwise noted.
All output test conditions are with CL = 50 pF.
For AC tests, input VIL = 0.45V and VIH = 2.4V except at X1 where VIH = VCC – 0.5V.
Table 18. Ready, Peripheral and Queue Status Timings
Symbol
TSRYCL
TCLSRY
TARYCH
TCLARX
TARYCHL
TARYLCL
TINVCH
TINVCL
TCLTMV
TCHQSV
Values
Parameter
Min
Synchronous Ready (SRDY)
Transition Setup Time(1)
SRDY Transition Hold Time(1)
ARDY Resolution Transition Setup
Time(2)
ARDY Active Hold Time(1)
ARDY Inactive Holding Time
Asynchronous Ready (ARDY) Setup
Time(1)
INTx, NMI, TEST, BUSY, TMR IN
Setup Time(2)
DRQ0, DRQ1 Setup Time(2)
Timer Output Delay
Queue Status Delay
Max
Unit
8
ns
8
ns
8
ns
8
8
ns
ns
10
ns
8
ns
8
17
22
Test
Conditions
ns
ns
ns
NOTES:
1. To guarantee proper operation.
2. To guarantee recognition at clock edge.
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5.7
Data Sheet
January 9, 2015
Reset and HOLD/HLDA Timings
TA = -40○C to +85○C, VCC = 5V + 10%
All timings are measured at 1.5V and 50 pF loading on CLKOUT unless otherwise noted.
All output test conditions are with CL = 50 pF.
For AC tests, input VIL = 0.45V and VIH = 2.4V except at X1 where VIH = VCC – 0.5V.
Table 19. Reset and HOLD/HLDA Timings
Symbol
TRESIN
THVCL
TCLAZ
TCLAV
TCLRO
TCLHAV
TCHCZ
TCHCV
Parameter
RES Setup
HOLD Setup(1)
Address Float Delay
Address Valid Delay
Reset Delay
HLDA Valid Delay
Command Lines Float Delay
Command Lines Valid Delay (after
Float)
Values
Min
15
8
TCLAX
3
3
Max
Unit
20
20
17
17
22
ns
ns
ns
ns
ns
ns
ns
20
ns
Test
Conditions
NOTE:
1. To guarantee recognition at next clock.
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Figure 16. Clock Waveforms
Figure 17. Reset Waveforms
Figure 18. Synchronous Ready (SRDY) Waveforms
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Figure 19. Asynchronous Ready (ARDY) Waveforms
Figure 20. Peripheral and Queue Status Waveforms
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Figure 21. HOLDA/HLDA Waveforms (Entering Hold)
Figure 22. HOLD/HLDA Waveforms (Leaving Hold)
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6.
Data Sheet
January 9, 2015
Instruction Execution Times
Table 20 provides IA186XL and IA188XL execution times, mnemonic instruction, and
additional information on execution, if required.
Table 20. Instruction Set Timing
Instruction
AAA
AAD
AAM
AAS
ADC Immediate to accumulator
ADC Immediate to
register/memory
ADC Register/memory with
register to either
ADD Immediate to accumulator
ADD Immediate to
register/memory
ADD Register/memory with
register either
AND Immediate to accumulator
AND Immediate to
register/memory
AND Register/memory and
register to either
BOUND
CBW
CLC
CLD
CLI
CMC
CMPS
CS
CWD
DAA
DAS
DEC Register
DEC Register/memory
Clock Cycles
IA186XL
IA188XL
3
3
6
6
40
40
3
3
1
1
3
13
Comments
–
–
–
–
–
–
1/16
1/24
register/memory
1
1/19
1
1/32
register/memory
1/20
1/28
1
1/24
1
1/33
1/12
1/15
20/40
1
1
1
1
2
9
1
1
4
2
1
1/24
24/64
4
1
1
1
2
20
1
1
4
2
1
1/32
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–
–
register/memory
Interrupt not taken/Interrupt taken
–
–
–
–
–
–
–
–
–
–
–
register/memory
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Table 20. Instruction Set Timing (Continued)
Instruction
DIV Memory-Byte
DIV Memory-Word
DIV Register-Byte
DIV Register-Word
IDIV Memory-Byte
IDIV Memory-Word
IDIV Register-Byte
IDIV Register-Word
IMUL Immediate (signed)
IMUL Memory-Byte
IMUL Memory-Word
IMUL Register-Byte
IMUL Register-Word
INC Register
INS
INS (repeated n times)
INT Type specified
INT Type 3
INTO
IRET
JA
JAE
JB
JBE
JCXZ
JE
JG
JGE
JL
JLE
JMP Direct intersegment
JMP Direct within segment
JMP Short/long
JNA
JNAE
JNB
JNBE
JNE
JNG
JNGE
JNL
JNLE
JNO
JNP
Clock Cycles
IA186XL
IA188XL
46
46
49
51
39
39
39
39
46
46
49
51
39
39
39
39
5/24
5/33
4
20
13
28
5
5
5
5
1
1
8
16
8+8n
16+16n
33
41
33
41
33
48
30
30
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/4
3/4
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3
3
3
3
4
4
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
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Comments
–
–
–
–
–
–
–
–
register/memory
–
–
–
–
–
–
–
–
–
–
–
Jump not taken/Jump taken
Jump not taken/Jump taken
Jump not taken/Jump taken
–
–
–
Jump not taken/Jump taken
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Table 20. Instruction Set Timing (Continued)
Instruction
JNS
JNZ
JO
JP
JPE
JPO
JS
JZ
LAHF
LDS
LEA
LEAVE
LES
LOCK
LODS
LODS (repeated n times)
LOOP
LOOPE
LOOPNE
LOOPNZ
LOOPZ
MOV Accumulator to memory
MOV Immediate to register
MOV Immediate to
register/memory
MOV Memory to accumulator
MOV Register to
Register/Memory
MOV Register/memory to
register
MOV Register/memory to
segment register
MOV Segment register to
register/memory
MOVS
MOVS (repeated n times)
MUL Memory-Byte
MUL Memory-Word
MUL Register-Byte
MUL Register-Word
NEG
NOP
NOT
OR Immediate to accumulator
Clock Cycles
IA186XL
IA188XL
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
3/5
2
2
1/24
1/33
3
3
12
12
12
32
1
1
8
12
8+8n
12+12n
3/4
3/4
3/4
3/4
3/4
3/4
3/4
3/4
3/4
3/4
5
8/12
1
1
1/5
1/12
5
2/5
8/12
2/20
2/5
2/20
2/5
2/20
2/5
2/20
24
24+24n
16
15
5
5
1/32
1
1/24
1
32
32+32n
20
25
5
5
1/15
1
1/24
1
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Jump not taken/Jump taken
–
register/memory
–
–
–
–
–
–
Loop not taken/Loop taken
Loop not taken/Loop taken
8-bit/16-bit
register/memory
8-bit/16-bit
register/memory
–
–
–
–
–
–
register/memory
–
register/memory
–
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Table 20. Instruction Set Timing (Continued)
Instruction
OR Immediate to
register/memory
OR Register/memory and
register to either
OUT Fixed port
OUT Variable port
OUTS
OUTS (repeated n times)
POP Memory
POP Register
POP Segment register
POPA
POPF
PUSH Immediate
PUSH Memory
PUSH Register
PUSH Segment register
PUSHA
PUSHF
RET Inter-segment
RET Inter-segment adding
immediate to SP
RET Within segment
RET Within segment adding
immediate to SP
ROL Register/Memory by 1
ROL Register/Memory by CL
ROL Register/Memory by
Count
ROR Register/Memory by 1
ROR Register/Memory by CL
ROR Register/Memory by
Count
SAHF
SBB Immediate from
accumulator
SBB Immediate from
register/memory
SBB Register/memory and
register to either
SCAS
SCAS (repeated n times)
SHL Register/Memory by 1
Clock Cycles
IA186XL
IA188XL
1/32
1/32
Comments
register/memory
1/32
1/24
5
5
8
8+8n
10
10
16
80
13
8
15
4
4
64
4
14
25
8/12
12
12/20
12/20+12/20n
20
12
12
93
13
12
28
12
12
72
16
21
21
8-bit/16-bit
–
8-bit/16-bit
8-bit/16-bit
–
–
–
–
–
–
–
–
–
–
–
–
–
14
16
13
13
–
–
1/8
1/8
1/8
1/16
1/16
1/24
register/memory
1/8
1/8
1/8
1/16
1/16
1/24
2
1
2
1
–
–
1/15
1/28
register/memory
1/11
1/40
register/memory
11
11+8n
5
8/12
8/12+8/12n
1/32
8-bit/16-bit
8-bit/16-bit
register/memory
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Table 20. Instruction Set Timing (Continued)
Instruction
SHL Register/Memory by CL
SHL Register/Memory by
Count
SHR Register/Memory by 1
SHR Register/Memory by CL
SHR Register/Memory by
Count
SS
STC
SUB Immediate from
accumulator
SUB Immediate from
register/memory
SUB Register/memory and
register to either
STD
STI
STOS
STOS (repeated n times)
TEST Immediate data and
accumulator
TEST Immediate data and
register/memory
TEST Register/memory and
register
WAIT
XCHG Register with
accumulator
XCHG Register/memory with
register
XLAT
XOR Immediate to accumulator
XOR Immediate to
register/memory
XOR Register/memory and
register to either
Clock Cycles
IA186XL
IA188XL
1/20
1/24
1/11
1/24
Comments
register/memory
1/5
1/20
1/11
1/24
1/28
1/24
1
1
1
1
1
1
–
–
-
1/11
1/28
register/memory
1/15
1/40
1
1
6
6+4n
1
1
1
8
8+8n
1
–
–
–
–
–
1/16
1/16
register/memory
1/12
1/20
register/memory
1
2
1
2
test_n = 0
–
3/16
3/20
register/memory
16
1
1/11
8
1
1/32
–
register/memory
1/16
1/32
register/memory
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7.
Data Sheet
January 9, 2015
Innovasic Part Number Cross-Reference
Tables 21 through 23 cross-reference the Innovasic part number with the corresponding Intel part
number.
Table 21. Innovasic Part Number Cross-Reference for the PLCC
Innovasic Part Number
IA186XLPLC68IR2
(lead free–RoHS)
IA188XLPLC68IR2
(lead free–RoHS)
Intel Part Number
N80C186XL25
N80C186XL20
N80C186XL12
TN80C186XL25
TN80C186XL20
TN80C186XL12
EE80C186XL25
EE80C186XL20
EE80C186XL12
EN80C186XL20
EN80C186XL12
N80C188XL25
N80C188XL20
N80C188XL12
TN80C188XL25
TN80C188XL20
TN80C188XL12
EE80C188XL25
EE80C188XL20
EE80C188XL12
EN80C188XL20
EN80C188XL12
Package Type
Temperature Range
68-Lead PLCC
Industrial
68-Lead PLCC
Industrial
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Table 22. Innovasic Part Number Cross-Reference for the PQFP (Special Order only)
Innovasic Part Number
IA186XLPQF80IR2
(lead free–RoHS)
IA188XLPQF80IR2
(lead free–RoHS)
Intel Part Number
S80C186XL25
S80C186XL20
S80C186XL12
TS80C186XL25
TS80C186XL20
TS80C186XL12
EG80C186XL25
EG80C186XL20
ES80C186XL20
S80C188XL25
S80C188XL20
S80C188XL12
TS80C188XL25
TS80C188XL20
TS80C188XL12
EG80C188XL25
EG80C188XL20
ES80C188XL20
Package Type
Temperature Range
80-Lead PQFP
Industrial
80-Lead PQFP
Industrial
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Table 23. Innovasic Part Number Cross-Reference for the LQFP (Special Order only)
Innovasic Part Number
IA186XLPLQ80IR2
(lead free–RoHS)
IA188XLPLQ80IR2
(lead free–RoHS)
Intel Part Number
SB80C186XL25
SB80C186XL20
SB80C186XL12
YW80C186XL25
YW80C186XL20
SB80C188XL25
SB80C188XL20
SB80C188XL12
YW80C188XL25
YW80C188XL20
Package Type
Temperature Range
80-Lead LQFP
Industrial
80-Lead LQFP
Industrial
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8.
Data Sheet
January 9, 2015
Errata
The following errata are associated with the IA186XL/IA188XL. A workaround to the identified
problem has been provided where possible.
8.1
Summary
Table 24 presents a summary of errata.
Table 24. Summary of Errata
Errata
No.
Problem
Ver. 0
Ver. 1
Ver. 2
Exists
Exists
Exists
1
Pin LOCK_n does not have an internal pullup and
will float during reset and bus hold.
2
When the timer compare register for any of the
timers is set to x0000, the max count is xFFFF
instead of x10000 as in the OEM part.
Exists
Fixed
Fixed
3
When using external interrupts IRQ0 or IRQ1 in
Cascade Mode, the acknowledge signal on INTA0
or INTA1 may be lost or truncated.
Exists
Fixed
Fixed
4
Memory->Memory moves interrupted by two DMA
cycles can corrupt data.
Exists
Fixed
Fixed
5
Bit 15 of RELREG (offset 0xFE) behaves
differently than Intel device.
Exists
Fixed
Fixed
6
Enhanced mode makes bit 15 of RELREG (offset
0xFE) read-only.
Exists
Fixed
Fixed
7
Sbus deasserts on the wrong edge of CLKOUT.
Exists
Fixed
Fixed
Exists
Exists
Fixed
Exists
Exists
Fixed
Exists
Exists
Fixed
8
9
10
Timer2 count register must be written to enable
counting.
Non-maskable interrupt (NMI) can be pre-empted
by maskable interrupt.
DMA can hang.
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Errata
No.
Problem
MOVS/POP/PUSH instructions interrupted by
DMA can corrupt data.
MOVS/POP/PUSH instructions interrupted by
DMA can corrupt data.
11
12
8.2
Data Sheet
January 9, 2015
Ver. 0
Ver. 1
Ver. 2
Exists
Exists
Fixed
Exists
Exists
Fixed
Detail
Errata No. 1
Problem: Pin LOCK_n does not have an internal pullup.
Description: Because Pin LOCK_n does not have an internal pullup, it will float during reset
and bus hold.
Workaround: An external pullup may be necessary if there is high external load on the signal.
Errata No. 2
Problem:
When the timer compare register for any of the timers is set to x0000, the max count is xFFFF
instead of x10000 as in the OEM part.
Description: The timer output will change one count earlier than it should when the max count
is set to x0000.
Workaround: The workaround is application dependent. Please contact Innovasic Technical
Support if this erratum is an issue.
Errata No. 3
Problem:
When using external interrupts IRQ0 or IRQ1 in Cascade Mode, the acknowledge signal on
INTA0 or INTA1 may be lost or truncated.
Description: The acknowledge for IRQ0 or IRQ1 will be lost or truncated in Cascade Mode if
another interrupt, with a higher priority setting (as configured in the interrupt control registers),
occurs just before or during the acknowledge. This does not apply to interrupts generated by the
DMA. This also does not apply when using the inherent priority settings (all interrupts
configured with the same priority).
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Workaround: When using external interrupts in cascade mode, do not program other interrupts
to have a high priority (except DMAs). When using both IRQ0 and IRQ1 in Cascade Mode they
must be programmed to have the same priority level.
Errata No. 4
Problem:
Memory->Memory moves interrupted by two DMA cycles can corrupt data.
Description:
This problem occurs if Memory->Memory operation is interrupted by
2 DMA cycles with the following sequence:
1. The instruction reads data from memory.
2. The first DMA cycle occurs.
3. The second DMA request occurs between 1 and 4 clocks after the falling edge of ALE for
the deposit phase of the first DMA.
4. An instruction fetch occurs (this will be the data that shows up later).
5. The second DMA cycle occurs.
6. The write phase of the instruction happens with bad data (from step 4).
If the second DMA request occurs earlier than 1 clock after ALE for the first DMA's deposit
phase, step 4 will be preempted by the second DMA, and operation is correct.
If the second DMA request occurs later than 4 clocks after ALE for the first DMA's deposit
phase, the write phase will follow step 4 immediately, and operation is correct.
Of the total 163 instructions, the following 8 are impacted by this issue, with both the 8 & 16 bit
versions of the first 7 on the list being affected.
1.
2.
3.
4.
5.
6.
7.
8.
MOVS
PUSH mem
POP mem
INS
IN
OUTS
OUT
ENTER
Workaround: If the conditions described above occur, there is no workaround. However, this
DMA issue will be corrected in Revision 1 of the device.
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Errata No. 5
Problem:
Bit 15 of RELREG (offset 0xFE) behaves differently than Intel device.
Description: For both 188 and 186 devices, an ESC opcode will generate a type 7 interrupt only
when RELREG[15] is a 0.
Workaround: Initialize RELREG[15] to 0 if a type 7 interrupt is desired.
Errata No. 6
Problem:
Enhanced mode makes bit 15 of RELREG (offset 0xFE) read-only.
Description: If the device comes out of reset in enhanced mode, RELREG[15] will be set to a
1.
Workaround: Avoid enhanced mode if a type 7 interrupt is desired.
Errata No. 7
Problem:
Sbus deasserts on the wrong edge of CLKOUT.
Description: The sbus goes inactive (high) at the end of a bus cycle on the falling edge of
CLKOUT. It should be on the rising edge of CLKOUT.
Workaround: None.
Errata No. 8
Problem:
Timer2 count register must be written to enable counting.
Description: If timer 2 count register is not explicitly written timer 2 will not count; this can
also prevent timers 0 & 1 from counting if timer 2 is used as a prescaler.
Workaround: Write timer 2 count register before enabling timer 2.
Errata No. 9
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Problem:
Non-maskable interrupt (NMI) can be pre-empted by maskable interrupt.
Description: When instruction execution unit is in Decode state for 2 or more consecutive
cycles and an NMI is recognized, it could be pre-empted by a maskable interrupt.
Workaround: None.
Errata No. 10
Problem:
DMA can hang.
Description: DMA to a region of memory using destination synchronization and a chip select
with extra wait states can hang.
Workaround: Do not use wait states and destination synchronization together.
Errata No. 11
Problem:
MOVS/POP/PUSH instructions interrupted by DMA can corrupt data.
Description: MOVS/POP/PUSH instructions interrupted by both a DMA transaction and an
instruction fetch bus cycle can corrupt data. This affects the IA186XL only.
Workaround: None.
Errata No. 12
Problem:
MOVS/POP/PUSH instructions interrupted by DMA can corrupt data.
Description: MOVS/PUSH/POP instructions with 16-bit, non-aligned destination address
interrupted by DMA can corrupt data. This affects the IA186XL only.
Workaround: None.
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9.
Data Sheet
January 9, 2015
Data Sheet Revision History
Table 25 presents the sequence of revisions to document IA211080711.
Table 25. Data Sheet Revision History
Date
Revision
September 30, 2008
00
Initial release
NA
August 5, 2009
01
Updated DC Parameters; Updated AC
Specifications and timing diagrams; Updated
Instruction Set Timing; Added errata.
Multiple pages
throughout the
document
02
Final version of the data sheet released to
support production of Version 0 of the
IA186/188 XL. Release date changed,
“Preliminary” removed from heading and
document number revised to reflect final
release. No other changes.
Headers and Footers
on all pages
03
Updated the package dimensions table for
the 68 PLCC; Added a note to Table 12
regarding the Step ID register; Updated
Errata 4 to include more recent information.
14, 46, 69, 71
January 15, 2010
04
Updated AC and DC table notes to show TA
at industrial temperature instead of
commercial; Updated Errata information for
Version 1 of the device; Updated note
regarding StepID register.
46, 47, 49, 51, 53,
55, 56, 57, 69
January 12, 2011
05
Updated to add Errata 8.
69, 72
January 13, 2011
06
Updated to add Errata 9 – 12.
69 - 73
March 23, 2011
07
Updated Instruction Set Timing Table to
incorporate DIV and IDIV values.
62
June 30, 2011
08
Updated Errata table to note fixes in Ver. 2.
69, 70
July 6, 2011
09
Updated pin descriptions for inputs/outputs.
25, 28, 31, 32, 34
February 11, 2013
10
Changed revision in part number from R1 to
R2, updated company logo
66, 67, 68, footers
on all pages
September 3, 2014
11
Changed Value of ucs_n to 0x0FFFFFH
43
January 9, 2015
12
Modified the chip compatibility claim
7
August 19, 2009
September 4, 2009
Description
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10.
Data Sheet
January 9, 2015
For Additional Information
The Innovasic Semiconductor IA186XL and IA188XL microcontrollers are form, fit, and
function replacements for the original Intel 80C186XL and 80C188XL 16-bit high-integration
embedded processors.
The Innovasic Support Team wants our information to be complete, accurate, useful, and easy to
understand. Please feel free to contact our experts at Innovasic at any time with suggestions,
comments, or questions.
Innovasic Support Team
5635 Jefferson St. NE, Suite A
Albuquerque, NM 87109
(505) 883-5263
Fax: (505) 883-5477
Toll Free: (888) 824-4184
E-mail: support@innovasic.com
Website: http://www.Innovasic.com
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