INNOVASIC IA82527PLC44AR2 Serial communications controllerâ can protocol Datasheet

IA82527
CAN Serial Communications Controller
Data Sheet
December 20, 2012
IA82527
Serial Communications Controller—CAN Protocol
Data Sheet
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Data Sheet
December 20, 2012
Copyright  2013 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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TABLE OF CONTENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
Introduction.............................................................................................................................6
1.1 General Description.......................................................................................................6
1.2 Features .........................................................................................................................7
Packaging, Pin Descriptions, and Physical Dimensions .........................................................8
2.1 Packages and Pinouts ....................................................................................................8
2.1.1 PLCC Package ..................................................................................................9
2.1.2 PLCC Physical Dimensions ............................................................................11
2.1.3 PQFP Package ................................................................................................12
2.1.4 PQFP Physical Dimensions ............................................................................14
2.2 Pin/Signal Descriptions ...............................................................................................15
Maximum Ratings, Thermal Characteristics, and DC Parameters .......................................25
Functional Description..........................................................................................................28
4.1 Hardware Architecture ................................................................................................28
4.1.1 CAN Controller ..............................................................................................29
4.1.2 Message RAM ................................................................................................29
4.1.3 I/O Ports ..........................................................................................................30
4.1.4 Programmable Clock Output ..........................................................................30
4.2 Address Map ...............................................................................................................30
4.3 CAN Message Objects ................................................................................................30
AC Specifications .................................................................................................................33
Innovasic Part Number Cross-Reference..............................................................................53
Errata.....................................................................................................................................54
7.1 Summary .....................................................................................................................54
7.2 Detail ...........................................................................................................................54
Revision History ...................................................................................................................57
For Further Information ........................................................................................................58
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LIST OF FIGURES
Figure 1. PLCC Package Diagram ..................................................................................................9
Figure 2. PLCC Physical Dimensions ..........................................................................................11
Figure 3. PQFP Package Diagram ................................................................................................12
Figure 4. PQFP Physical Dimensions ...........................................................................................14
Figure 5. Functional Block Diagram ............................................................................................28
Figure 6. mosi/miso Connection ...................................................................................................29
Figure 7. Mode 0 and Mode 1: General Bus Timing ...................................................................36
Figure 8. Mode 0 and Mode 1: Ready Timing for Read Cycle ...................................................37
Figure 9. Mode 0 and Mode 1: Ready Timing for Write Cycle with No Write Pending ............37
Figure 10. Mode 0 and Mode 1: Ready Timing for Write Cycle with Write Active...................38
Figure 11. Mode 2: General Bus Timing .....................................................................................41
Figure 12. Mode 3: Asynchronous Operation, Read Cycle .........................................................44
Figure 13. Mode 3: Asynchronous Operation, Write Cycle ........................................................45
Figure 14. Mode 3: Synchronous Operation, Read Cycle Timing ..............................................48
Figure 15. Mode 3: Synchronous Operation, Write Cycle Timing..............................................49
Figure 16. Serial Interface Mode: icp = 0 and cp = 0 ..................................................................52
Figure 17. Serial Interface Mode: icp = 1 and cp = 1 ..................................................................52
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LIST OF TABLES
Table 1. PLCC Pin List .................................................................................................................10
Table 2. PQFP Pin List .................................................................................................................13
Table 3. Pin/Signal Descriptions...................................................................................................15
Table 4. Absolute Maximum Ratings ...........................................................................................25
Table 5. Thermal Characteristics ..................................................................................................25
Table 6. DC Parameters ................................................................................................................26
Table 7. ISO Physical Layer DC Parameters ................................................................................27
Table 8. Address Map ...................................................................................................................31
Table 9. Message Object Structure ...............................................................................................32
Table 10. Mode 0 and Mode 1: General Bus and Ready Timing for 5.0V Operation .................34
Table 11. Mode 0 and Mode 1: General Bus and Ready Timing for 3.3V Operation .................35
Table 12. Mode 2: General Bus Timing for 5.0V Operation .......................................................39
Table 13. Mode 2: General Bus Timing for 3.3V Operation .......................................................40
Table 14. Mode 3: Asynchronous Operation Timing for 5.0V Operation...................................42
Table 15. Mode 3: Asynchronous Operation Timing for 3.3V Operation...................................43
Table 16. Mode 3: Synchronous Operation Timing for 5.0V Operation .....................................46
Table 17. Mode 3: Synchronous Operation Timing for 3.3V Operation .....................................47
Table 18. Serial Interface Mode Timing for 5.0V Operation .......................................................50
Table 19. Serial Interface Mode Timing for 3.3V Operation .......................................................51
Table 20. Innovasic Part Number Cross-Reference......................................................................53
Table 21. Revision History ...........................................................................................................57
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CAN Serial Communications Controller
1.
Data Sheet
December 20, 2012
Introduction
The Innovasic Semiconductor IA82527 Controller Area Network (CAN) Serial Communications
Controller is a form, fit, and function replacement for the original Intel® 82527 Serial
Communications Controller.
These devices are produced using Innovasic’s Managed IC Lifetime Extension System
(MILES™). This cloning technology, which produces replacement ICs beyond simple
emulations, ensures complete compatibility with the original device, including any
“undocumented features.” Additionally, MILES™ captures the clone design in such a way that
production of the clone can continue even as silicon technology advances.
The IA82527 Serial Communications Controller replaces the obsolete Intel 82527 device,
allowing users to retain existing board designs, software compilers/assemblers, and emulation
tools, thereby avoiding expensive redesign efforts.
1.1
General Description
CAN protocol uses a multi-master CSMA/CR (Carrier Sense, Multiple Access with Collision
Resolution) bus to transfer message objects between network nodes.
The IA82527 support CAN Specification 2.0 Part A and B, standard and extended message
frames, and has the capability to transmit, receive, and perform message filtering on standard and
extended message frames.
The IA82527 can store 15 message objects of 8-byte data length. Each message object can be
configured as either transmit or receive except for message object 15, which is receive-only.
Message object 15 also provides a special acceptance mask designed to filter message identifiers
that are received.
The IA82527 also provides a programmable acceptance mask that allows users to globally mask
any identifier bits of the incoming message. This global mask can be used for both standard and
extended message frames.
The IA82527 is capable of operating at 5.0 or 3.3 volts. This datasheet discusses both modes of
operation. Where applicable, characteristics specific to either 3.3 or 5.0 volt operation are
identified separately throughout this datasheet.
The IA82527 is manufactured in a reliable 5-volt process technology and is available in 44-lead
PLCC or PQFP RoHS packages for the automotive temperature range (-40°C to 125°C).
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1.2
Data Sheet
December 20, 2012
Features
The primary features of the IA82527 are as follows:
•
CAN Protocol Support
– Specification 2.0, Part A and Part B
– Standard ID Data and Remote Frames
– Extended ID Data and Remote Frames
•
CAN Bus Interface
– Configurable Input Comparator
– Configurable Output Driver
– Programmable Bit Rate
•
Global Mask, Programmable
– Standard Message Identifier
– Extended Message Identifier
•
Message Objects
– 14 Transmit/Receive Buffers
– 1 Double Buffered Receive Buffer with Programmable Mask
•
Flexible Status Interface
•
CPU Interface Options
– 16-Bit Multiplexed Intel Architecture
– 8-Bit Multiplexed Intel Architecture
– 8-Bit Multiplexed Non-Intel Architecture
– 8-Bit Non-Multiplexed Non-Intel Architecture
– Serial (SPI)
•
I/O Ports (2)
– 8-Bit
– Bidirectional
•
Flexible Interrupt Structure
•
Programmable Clock Output
A detailed description of the IA82527, including the features listed above, is provided in
Chapter 4, Functional Description.
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2.
Packaging, Pin Descriptions, and Physical Dimensions
2.1
Packages and Pinouts
The Innovasic Semiconductor IA82527 CAN Serial Communications Controller is available in
the following RoHS packages:
•
•
44-Pin Plastic Leaded Chip Carrier (PLCC), equivalent to original Intel PLCC package
44-Pin Plastic Quad Flat Pack (PQFP), equivalent to original Intel QFP package
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2.1.1
Data Sheet
December 20, 2012
PLCC Package
The pinout for the PLCC Package is as shown in Figure 1. The corresponding pinout is provided
in Table 1.
Figure 1. PLCC Package Diagram
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Table 1. PLCC Pin List
Pin
1
2
3
4
5
6
7
8
9
10
11
Name
vcc
a2/ad2/csas
a1/ad1/cp
a0/ad0/icp
ale/as
rd_n/e
wr_n/wrl_n/r-w_n
cs_n
dsack0_n
wrh_n/p2.7
int_n/p2.6
Pin
12
13
14
15
16
17
18
19
20
21
22
Name
p2.5
p2.4
p2.3
p2.2
p2.1
p2.0
xtal1
xtal2
vss2
rx1
rx0
Pin
23
24
25
26
27
28
29
30
31
32
33
Name
vss1
int_n/vcc/2
tx1
tx0
clkout
ready/miso
reset_n
mode1
ad15/d7/p1.7
ad14/d6/p1.6
ad13/d5/p1.5
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Pin
34
35
36
37
38
39
40
41
42
43
44
Name
ad12/d4/p1.4
ad11/d3/p1.3
ad10/d2/p1.2
ad9/d1/p1.1
ad8/d0/p1.0
a7/ad7
a6/ad6/sclk
a5/ad5
a4/ad4/mosi
a3/ad3/ste
mode0
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2.1.2
Data Sheet
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PLCC Physical Dimensions
The physical dimensions for the PLCC are as shown in Figure 2.
Legend:
Symbol
A
A1
A2
A3
B
c
D
D1
D2
E
E1
E2
n
n1
p
α
β
Min
0.1650
0.0200
0.1450
0.042
0.0130
0.0077
0.6850
0.6500
0.582
0.6850
0.6500
0.582
–
–
–
Nom
–
–
–
–
0.0170
–
–
–
–
–
–
–
44
11
0.0500
7°
7°
Max
0.1800
–
0.1600
0.056
0.0210
0.015
0.6950
0.6560
0.638
0.6950
0.6560
0.638
–
–
–
Note: Controlling dimension in inches.
Figure 2. PLCC Physical Dimensions
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2.1.3
Data Sheet
December 20, 2012
PQFP Package
The pinout for the PQFP Package is as shown in Figure 3. The corresponding pinout is provided
in Table 2.
Figure 3. PQFP Package Diagram
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Table 2. PQFP Pin List
Pin
1
2
3
4
5
6
7
8
9
10
11
Name
wr_n/wrl_n/r-w_n
cs_n
dsack0_n
wrh_n/p2.7
int_n/p2.6
p2.5
p2.4
p2.3
p2.2
p2.1
p2.0
Pin
12
13
14
15
16
17
18
19
20
21
22
Name
xtal1
xtal2
vss2
rx1
rx0
vss1
int_n/vcc/2
tx1
tx0
clkout
ready/miso
Pin
23
24
25
26
27
28
29
30
31
32
33
Name
reset_n
mode1
ad15/d7/p1.7
ad14/d6/p1.6
ad13/d5/p1.5
ad12/d4/p1.4
ad11/d3/p1.3
ad10/d2/p1.2
ad9/d1/p1.1
ad8/d0/p1.0
a7/ad7
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Pin
34
35
36
37
38
39
40
41
42
43
44
Name
a6/ad6/sclk
a5/ad5
a4/ad4/mosi
a3/ad3/ste
mode0
vcc
a2/ad2/csas
a1/ad1/cp
a0/ad0/icp
ale/as
rd_n/e
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2.1.4
Data Sheet
December 20, 2012
PQFP Physical Dimensions
The physical dimensions for the PQFP are as shown in Figure 4.
Legend:
Symbol
n
n1
p
A
A2
A1
L
(F)
E
D
E1
D1
c
B
CH
α
β
φ
Min
–
–
–
–
–
–
0.019
–
0.478
0.478
0.390
0.390
0.005
0.011
–
5°
5°
0°
Nom
44
11
0.031
–
0.079
0.010
0.025
0.047
0.488
0.488
0.394
0.394
0.007
0.014
0.030
–
–
–
Max
–
–
–
0.096
–
–
0.031
–
0.498
0.498
0.398
0.398
0.009
0.017
–
16°
16°
10°
Note: Controlling dimension in
inches.
Figure 4. PQFP Physical Dimensions
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2.2
Data Sheet
December 20, 2012
Pin/Signal Descriptions
Descriptions of the pin and signal functions for the IA82527 Serial Communications Controller
are provided in Table 3.
Several of the IA82527 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 3, 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 both the PLCC and PQFP packages are provided in the
“Pin” column. If the signal and pin names are the same, no entry is provided in the “Pin-Name”
column.
Table 3. Pin/Signal Descriptions
Pin
Signal
Name
PLCC
PQFP
a0
a1
a0/ad0/icp
a1/ad1/cp
4
42
3
41
a2
a2/ad2/csas
2
40
a3
a3/ad3/ste
43
37
a4
a4/ad4/mosi
42
36
a5
a5/ad5
41
35
a6
a6/ad6/sclk
40
34
a7
a7/ad7
39
33
ad0
ad1
a0/ad0/icp
a1/ad1/cp
4
42
3
41
ad2
a2/ad2/csas
2
40
ad3
a3/ad3/ste
43
37
ad4
a4/ad4/mosi
42
36
ad5
a5/ad5
41
35
ad6
a6/ad6/sclk
40
34
ad7
a7/ad7
39
33
ad8
38
32
ad9
ad8/d0/p1.0
ad9/d1/p1.1
37
31
ad10
ad10/d2/p1.2
36
30
ad11
ad11/d3/p1.3
35
29
ad12
ad12/d4/p1.4
34
28
ad13
ad13/d5/p1.5
33
27
ad14
ad14/d6/p1.6
32
26
ad15
ad15/d7/p1.7
31
25
Description
address bits 7–0. Input. Mode 3. When the IA82527
is configured to operate in the 8-bit non-multiplexed
non-Intel architecture mode (Mode 3), these lines
provide the 8-bit address bus input to the device.
address/data bits 15–0. Input/Output. Mode 1. When
the IA82527 is configured to operate in the 16-bit
multiplexed Intel architecture mode (Mode 1), these
lines provide the 16-bit address bus (input) and the
16-bit data bus (input/output) for the device.
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Table 3. Pin/Signal Descriptions (Continued)
Pin
Signal
Name
PLCC
PQFP
Description
ale
ale/as
5
43
address latch enable. Input. Active High. Mode 0 and
Mode 1. When the IA82527 is configured to operate in
either the 8-bit multiplexed Intel architecture mode
(Mode 0) or the 16-bit multiplexed Intel architecture
mode (Mode 1), this signal latches the address into the
device during the address phase of the bus cycle.
as
ale/as
5
43
address strobe. Input. Active High. Mode 2. When
the IA82527 is configured to operate in the 8-bit
multiplexed non-Intel architecture mode (Mode 2), this
signal latches the address into the device during the
address phase of the bus cycle.
If the IA82527 is configured to operate in Mode 3 (8-bit
non-multiplexed non-Intel architecture), this pin must
be tied high.
clkout
clkout
27
21
clock out. Output (push-pull). This output provides a
programmable clock frequency. The frequency is set
via the Clockout Register (1FH) and can range from
the frequency of the xtal (crystal) input to xtal/n, where
n can be an integer value from 2 through 15. This
output allows the IA82527 to clock other devices such
as the host CPU.
For 3.3V operation the crystal or external oscillator
must run at <=12 MHz to produce clock output.
cp
a1/ad1/cp
3
41
clock phase. Input. Serial Interface Mode. When this
input is a logic 0, data is sampled on the rising edge of
sclk. When this input is a logic 1, data is sampled on
the falling edge of sclk.
cs_n
cs_n
8
2
chip select. Input. Active Low (Modes 0–3);
Selectable Active Level (Serial Interface Mode). When
the IA82527 is configured to operate in one of the
parallel interface modes (Modes 0–3) or the Serial
Interface Mode, this input, during its active state,
selects the device allowing CPU access.
For Serial Interface Mode operation, the active state is
selectable (i.e., either high or low) via the IA8257 csas
pin.
csas
a2/ad2/csas
2
40
chip select active state. Input. Serial Interface Mode.
When this input is a logic 0, the cs_n input is
configured to function active low. When this input is a
logic 1, the cs_n input is configured to function active
high.
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Table 3. Pin/Signal Descriptions (Continued)
Pin
Signal
Name
PLCC
PQFP
Description
d0
38
32
d1
ad8/d0/p1.0
ad9/d1/p1.1
37
31
d2
ad10/d2/p1.2
36
30
data bits 7–0. Input/Output. Mode 3. When the
IA82527 is configured to operate in the 8-bit
non-multiplexed non-Intel architecture mode (Mode 3),
these lines provide the 8-bit data bus to the device.
d3
ad11/d3/p1.3
35
29
d4
ad12/d4/p1.4
34
28
d5
ad13/d5/p1.5
33
27
d6
ad14/d6/p1.6
32
26
d7
ad15/d7/p1.7
31
25
dsack0_n
dsack0_n
9
3
data and size acknowledge 0. Output. Active Low
(open drain with active pull-up). Mode 3
(asynchronous operation). When the IA82527 is
configured to operate in the 8-bit non-multiplexed
non-Intel architecture mode (Mode 3), this signal
functions as follows: when the CPU reads from the
IA82527, dsack0_n active low indicates that the data
is valid; when the CPU writes to the IA82527,
dsack0_n active low indicates that the data has been
received.
Note: The active pull-up circuitry drives dsack0_n
high for 10ns to raise it to a 3.0V voltage level. After
that, an external pull up is required to pull dsack0_n
the remainder of the way to VSS.
e
rd_n/e
6
44
enable. Input. Active High. Mode 3 (synchronous).
When the IA82527 is configured to operate in the 8-bit
non-multiplexed non-Intel architecture mode (Mode 3),
this signal functions as follows: when the CPU reads
from or writes to the IA82527, e active high indicates
that the address is valid.
icp
a0/ad0/icp
4
42
idle clock polarity. Input. Serial Interface Mode.
When this input is a logic 0, the polarity for the idle
state of sclk is low. When this input is a logic 1, the
polarity for the idle state of sclk is high.
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Table 3. Pin/Signal Descriptions (Continued)
Pin
Signal
Name
PLCC
PQFP
Description
int_n
int_n/ VCC/2
24
18
int_n/p2.6
11
5
interrupt. Output (open collector). Active Low. On the
IA82527, two pins can provide the interrupt (int_n)
output; however, depending on the setting of the MUX
bit in the CPU Interface Register (02H), only one of the
pins will serve as the source of int_n as follows:
• PLCC Package:
– When the MUX bit of the CPU Interface Register
is 0, pin 24 functions as the int_n output and pin
11 functions as p2.6.
– When the MUX bit of the CPU Interface Register
is 1, pin 11 functions as the int_n output and pin
24 functions as Vcc/2.
• PQFP Package:
– When the MUX bit of the CPU Interface Register
is 0, pin 18 functions as the int_n output and pin
5 functions as p2.6.
– When the MUX bit of the CPU Interface Register
is 1, pin 5 functions as the int_n output and pin
18 functions as Vcc/2.
miso
ready/miso
28
22
master in slave out. Output (open drain). Serial
Interface Mode. When the IA82527 is configured to
operate with a serial interface, miso is the serial data
output.
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Table 3. Pin/Signal Descriptions (Continued)
Pin
Signal
Name
PLCC
PQFP
mode0
mode0
44
38
mode1
mode1
30
24
Description
modeN (N = 1 or 0). Input. The logic levels at the
mode0 and mode1 inputs determine the operating
mode (i.e., interface type) of the IA82527 as follows:
mode1 mode0
0
0
1
1
0
1
0
1
Interface Type
8-bit multiplexed Intel
16-bit multiplexed Intel
8-bit multiplexed non-Intel
8-bit Non-multiplexed non-Intel
The mode1 and mode0 inputs are also used to
establish the Serial Interface Mode as follows: when
the IA82527 is reset, if
•
•
•
•
mode1 = 0
mode0 = 0
rd_n = 0
wr_n = 0
the Serial Interface Mode will be selected.
The mode1 and mode0 pins are internally connected
to weak pull-downs. These pins will be pulled low
during reset if unconnected. Following reset, these
pins will float.
mosi
a4/ad4/mosi
42
36
master out slave in. Input. Serial Interface Mode.
When the IA82527 is configured to operate with a
serial interface, mosi is the serial data input.
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Table 3. Pin/Signal Descriptions (Continued)
Pin
Signal
Name
PLCC
PQFP
Description
38
32
p1.1
ad8/d0/p1.0
ad9/d1/p1.1
37
31
p1.2
ad10/d2/p1.2
36
30
p1.3
ad11/d3/p1.3
35
29
p1.4
ad12/d4/p1.4
34
28
p1.5
ad13/d5/p1.5
33
27
p1.6
ad14/d6/p1.6
32
26
p1.7
ad15/d7/p1.7
31
25
port 1, bit N (N = 7–0). Input/Output (generalpurpose). Mode 0, Mode 2, and Serial Interface Mode.
Port 1 bits p1.7–p1.0 can be individually programmed
as inputs or outputs. Programming is accomplished by
writing to the P1CONF Register (9FH). The 8 bits of
the P1CONF Register, P1CONF7–P1CONF0,
correspond directly to pins p1.7–p1.0. Writing a 0 to a
bit in the P1CONF Register causes the corresponding
pin to be configured as a high-impedance input.
Writing a 1 to a bit in the P1CONF Register causes the
corresponding pin to be configured as a push-pull
output. All Port 1 pins have weak pull-ups until the
port is configured by writing to the P1CONF Register.
The default value of the P1CONF Register following a
reset is 00H.
p1.0
Data is read from Port 1 via the P1IN Register (BFH).
A logic 0 for any bit in this register means that a logic 0
was read from the corresponding pin; a logic 1 for any
bit means that a logic 1 was read from the
corresponding pin. The default value of the P1IN
Register following a reset is FFH.
Data is written to Port 1 via the P1OUT Register
(DFH). Writing a logic 0 to any bit in this register
means that a logic 0 is written to the corresponding
pin; writing a logic 1 to any bit means that a logic 1 is
written to the corresponding pin. The default value of
the P1OUT Register following a reset is 00H.
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Table 3. Pin/Signal Descriptions (Continued)
Pin
Signal
Name
PLCC
PQFP
Description
17
11
p2.1
p2.0
p2.1
16
10
p2.2
p2.2
15
9
p2.3
p2.3
14
8
p2.4
p2.4
13
7
p2.5
p2.5
12
6
p2.6
int_n/p2.6
11
5
p2.7
wrh_n/p2.7
10
4
port 2, bit N (N = 7–0). Input/Output. Port 2 bits p2.7–
p2.0, can be individually programmed as inputs or
outputs. Programming is accomplished by writing to
the P2CONF Register (AFH). The 8 bits of the
P2CONF Register, P2CONF7–P2CONF0, correspond
directly to pins p2.7–p2.0. Writing a 0 to a bit in the
P2CONF Register causes the corresponding pin to be
configured as a high-impedance input. Writing a 1 to a
bit in the P2CONF Register causes the corresponding
pin to be configured as a push-pull output. All Port 2
pins have weak pull-ups until the port is configured by
writing to the P2CONF Register. The default value of
the P1CONF Register following a reset is 00H.
p2.0
Data is read from Port 2 via the P2IN Register (CFH).
A logic 0 for any bit in this register means that a logic 0
was read from the corresponding pin; a logic 1 for any
bit means that a logic 1 was read from the
corresponding pin. The default value of the P2IN
Register following a reset is FFH.
Data is written to Port 2 via the P2OUT Register
(EFH). Writing a logic 0 to any bit in this register
means that a logic 0 is written to the corresponding
pin; writing a logic 1 to any bit means that a logic 1 is
written to the corresponding pin. The default value of
the P2OUT Register following a reset is 00H.
Two bits of Port 2 (P2.7 and P2.6) have alternate
functions based on CPU interface mode.
See Section 4.1.3 I/O Ports.
rd_n
rd_n/e
6
44
read. Input. Active Low. Mode 0 and Mode 1. When
rd_n is asserted (low), it causes the IA82527 to drive
the data from the location being read onto the data
bus.
ready
ready/miso
28
22
ready. Output (open drain). Active High. Mode 0 and
Mode 1. When ready is asserted (high), it signals the
completion of a bus cycle. The ready output is
provided to force system CPU wait states as required.
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Table 3. Pin/Signal Descriptions (Continued)
Pin
Signal
reset_n
Name
PLCC
PQFP
Description
reset_n
29
23
reset. Input. Active Low. When the reset_n signal is
asserted (low), the IA82527 is initialized. There are
two reset situations:
Cold reset is a power-on reset. As VCC is driven to a
valid level (power on), the reset_n signal must be
driven low for a minimum of 1 ms measured from a
valid VCC level. No falling edge on the reset_n pin is
required during a cold reset.
For warm reset, VCC remains at a valid level (i.e.,
power is already on and remains on) while reset_n is
driven low for a minimum of 1 ms.
wr_n/wrl_n/r-w_n
7
1
read-write. Input. Active High (read)-Active Low
(write). Mode 2 and Mode 3. When r-w_n is high, it
signals a read cycle. When r-w_n is low, it signals a
write cycle.
rx0
rx0
22
16
rx1
rx1
21
15
Receive (rx), lines 0 and 1. Input. Pins rx0 and rx1
are the inputs to the IA82527 from the CAN bus lines.
These pins connect internally to the receiver input
comparator. Serial data from the CAN bus can be
received using both rx0 and rx1 or by using only rx0
as follows:
r-w_n
• When the CoBy Bit in the Bus Configuration
Register (2FH) is a 0, rx0 and rx1 are connected to
the input comparator rx0 is connected to the
non-inverting input and rx1 is connected to the
inverting input). A recessive level is read when rx0
> rx1. A dominant level is read when rx1 > rx0.
• When the CoBy Bit in the Bus Configuration
Register (2FH) is a 1, input comparison is disabled,
and rx0, which is still connected to the non-inverting
input of the comparator, is the CAN bus line input.
For this configuration, the DcR0 bit of the Bus
Configuration Register must be a 0.
After a cold reset (power on), the default configuration
is the use of both rx0 and rx1 for the CAN bus input.
sclk
a6/ad6/sclk
40
34
serial clock. Input. Serial Interface Mode. The sclk
pin is the serial clock input to the IA82527 (slave
device). The clock signal is provided by the master
device.
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Table 3. Pin/Signal Descriptions (Continued)
Pin
Signal
ste
Name
PLCC
PQFP
a3/ad3/ste
43
37
Description
synchronization transmission enable. Input. Serial
interface Mode. The logic level at the ste pin enables
the transmission of the synchronization bytes through
the IA82527 miso pin while the master device
transmits the Address and Control Byte as follows:
• When a logic 0 is placed on the ste pin, the
synchronization bytes sent through the miso pin are
00H and 00H.
• When a logic 1 is placed on the ste pin, the
synchronization bytes sent through the miso pin are
AAH and 55H.
The IA82527 sends the synchronization bytes after the
cs_n signal has been asserted
tx0
tx0
26
20
tx1
tx1
25
19
Transmit (tx), lines 0 and 1. Output (push-pull). Pins
tx0 and tx1 are the outputs from the IA82527 to the
CAN bus lines.
During a recessive bit, tx0 is high and tx1 is low.
During a dominant bit, tx0 is low and tx1 is high.
VCC
VCC/2
VCC
1
39
Power (VCC). This pin provides power for the IA82527
device. It must be connected to a +5V DC power
source.
int_n/ VCC/2
24
18
Reference Voltage, ISO Physical Layer (VCC/2).
Output. The VCC/2 pin provides a reference voltage for
the ISO low-speed physical layer:
• 2.38V DC (minimum) to 2.60V DC (maximum)
(VCC = +5.0V; IOUT ≤ 75 μA)
• 1.46V DC (minimum) to 1.688V DC (maximum)
(VCC = +3.3V; IOUT ≤ 75 μA)
This pin only functions as VCC/2 when the MUX bit of
the CPU Interface Register (02H) is 1.
VSS1
VSS1
23
17
Ground, Digital (VSS1). This pin provides the digital
ground (0V) for the IA82527. It must be connected to
a VSS board plane.
VSS2
VSS2
20
14
Ground, Analog (VSS2). This pin provides the ground
(0V) for the IA82527 analog comparator. It must be
connected to a VSS board plane.
wr_n
wr_n/wrl_n/r-w_n
7
1
write. Input. Active Low. Mode 0. When wr_n is
asserted (low), it signals a write cycle.
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Table 3. Pin/Signal Descriptions (Continued)
Pin
Signal
Name
PLCC
PQFP
Description
wrh_n
wrh_n/p2.7
10
4
write high byte. Input. Active Low. Mode 1. When
wrh_n is asserted (low), it signals a write cycle for the
high byte of data (bits 15–8).
wrl_n
wr_n/wrl_n/r-w_n
7
1
write low byte. Input. Active Low. Mode 1. When
wrl_n is asserted (low), it signals a write cycle for the
low byte of data (bits 7–0).
xtal1
xtal1
18
12
Crystal (xtal) 1. Input. The xtal1 pin is the input
connection for an external crystal that drives the
IA82527 internal oscillator. (When an external crystal
is used, it is connected between this pin and the xtal2
pin—see next table entry.)
If an external oscillator or clock source is used to drive
the IA82527 instead of a crystal, the xtal1 pin is the
input for this clock source.
xtal2
xtal2
19
13
Crystal (xtal) 2. Output (push-pull). The xtal2 pin is
the output connection for an external crystal that drives
the IA82527 internal oscillator. (When an external
crystal is used, it is connected between this pin and
the xtal1 pin—see previous table entry.)
If an external oscillator or clock source is used to drive
the IA82527 instead of a crystal, xtal2 must be left
unconnected (i.e., must be floated). Additionally, the
xtal2 output must not be used as a clock source for
other system components.
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3.
Data Sheet
December 20, 2012
Maximum Ratings, Thermal Characteristics, and DC Parameters
For the Innovasic Semiconductor IA82527 Serial Communications Controller, the absolute
maximum ratings, thermal characteristics, and DC parameters are provided in Tables 4
through 6, respectively.
Additionally, the DC parameters of the ISO Physical Layer are provided in Table 7.
Table 4. Absolute Maximum Ratings
Parameter
Storage Temperature
Case Temperature under Bias
Supply Voltage with Respect to Vss
Voltage on Pins other than Supply with Respect to Vss
Rating
−55°C to +150°C
−40°C to +125°C
−0.3V to +7.0V
−0.3V to VDD +0.3V
Table 5. Thermal Characteristics
Symbol
TA
PD
ΘJa
TJ
Characteristic
Ambient Temperature
Power Dissipation
44-Pin PLCC Package
44-Pin PQFP Package
Average Junction Temperature
Value
-40°C to 125°C
MHz × ICC × V/1000
30
38.4
TA + (PD × ΘJa)
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Units
°C
W
°C/W
°C
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Table 6. DC Parameters
Symbol
VCC
VIL
Parameter
Supply Voltage
Voltage, Input Low
Min
3.0
–
Max
5.5
0.8
Units
V
V
VIL1
Voltage, Input Low
–
0.3*VCC
V
VIH
Voltage, Input High
2.4
–
V
VIH1
Voltage, Input High
0.7* VCC
–
V
VOL
Voltage, Output Low
–
0.45
V
VOH
Voltage, Output High
VCC − 0.8
–
V
ILEAK
CIN
ICC
Input Leakage Current
Pin Capacitance
Supply Current
–
–
–
±10
10
3
μA
pF
mA/MHz
ISLEEP-E
ISLEEP-D
IPD
Sleep Current
Sleep Current
Power-Down Current
–
–
–
800
150
25
μA
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Notes
–
All pins except XTAL1, rx0 for
comparator bypass mode
XTAL1, rx0 for comparator
bypassed
reset_n hysteresis = 200mV
All pins except XTAL1, rx0 for
comparator bypass mode
XTAL1, rx0 for comparator
bypassed
ISO Physical Layer DC
Parameters (see Table 7). All pins
except tx0, tx1, XTAL2 ,
IOL = 1.6 mA.
ISO Physical Layer DC
Parameters tx0, tx1, XTAL2 (see
Table 7). CLKOUT IOH = −80 μA.
All other IOH pins = −200 μA.
VSS < VIN < VCC
fCRYSTAL = 1 KHz
fCRYSTAL = 16 MHz, all pins are
driven to VSS or VCC
VCC/2 enabled, no load
VCC/2 disabled
xtal1 clocked, all pins driven to VSS
or VCC
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Table 7. ISO Physical Layer DC Parameters
Signal
rx0 & rx1,
tx0 & tx1
VCC/2
Parameter
Input Voltage
Common Mode Range
Differential Input Threshold
Delay 1:
receive comparator input delay +
tx0/tx1 output delay
Delay 2:
rx0 pin delay (comparator
bypassed) +
tx0/tx1 output delay
Source Current on tx0, tx1
Sink Current on tx0, tx1
Input Hysteresis for rx0/rx1
Reference Voltage
Min
−0.5
Vss + 1.0
±100
–
Max
VCC + 0.5
VCC − 1.0
–
60 (@5.0V)
Units
V
V
mV
ns
110 (@3.3V)
ns
Notes
–
–
–
Load on tx0/tx1 = 100 pF,
rx0/rx1 differential = +100
mV to −100 mV
–
50 (@5.0V)
ns
Load on tx0/tx1 = 100 pF
−10
10
–
2.38
1.46
60 (@3.3V)
–
–
0
2.62
1.688
ns
mA
mA
V
V
V
VOUT = VCC − 1.0 V
VOUT = 1.0 V
–
IOUT ≤ 75 μA, VCC = 5.0 V
IOUT ≤ 75 μA, VCC = 3.3 V
All ratings listed are for the temperature range TA = −40°C to +125°C (VCC = 5V ± 10%) or (VCC = 3.0 -3.6V).
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4.
Functional Description
4.1
Hardware Architecture
Data Sheet
December 20, 2012
A block diagram of the IA82527 CAN Serial Communications Controller is shown in Figure 5.
The primary architectural features of the device are as follows:
•
•
•
•
•
CAN Controller
Message RAM
CPU Interface
I/O Ports
Programmable Clock Output
These features are briefly described in the following subsections.
mode0
mode1
}
Mode
Select
clkout
Address/Data Bus
Programmable
Clock
Control Bus
Port 1 I/O
Receive {
Port
1
CAN
Controller
CPU Interface
Port 2 I/O
Transmit
Internal
Port
2
rx0
rx1
{
tx0
tx1
Message
RAM
Registers
mosi
miso
Serial Interface
Figure 5. Functional Block Diagram
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4.1.1
Data Sheet
December 20, 2012
CAN Controller
The CAN Controller block of the IA82527 supports the interface to the CAN Bus via the rx0,
rx1, tx0, and tx1 lines. The CAN Controller manages the transceiver logic, error management
logic, and the message objects, controlling the data stream between the Message RAM (parallel
data) and the CAN Bus (serial data).
4.1.2
Message RAM
The Message RAM block of the IA82527 provides the interface buffer between the system CPU
and the CAN Bus. The IA82527 Message RAM provides storage for 15 message objects of
8-byte data length. The Message RAM is Dual Port RAM allowing the CPU and the CAN
controller simultaneous access to the Message RAM.
4.1.3
CPU Interface
The IA82527 is can be interfaced to many commonly used microcontrollers. There are four
parallel interface options and a serial interface option.
Different interface options, or modes, are selected using interface mode pins, mode1 and mode0.
The parallel interface modes that can be selected are as follows:
•
•
•
•
8-bit Intel multiplexed address and data buses
16-bit Intel multiplexed address and data buses
8-bit non- Intel multiplexed address and data buses
8-bit non-multiplexed address and data buses
The serial interface mode is fully compatible with the Motorola® SPI protocol and will interface
to most commonly used serial interfaces. The serial interface is implemented in slave mode
only, and responds to the master using the specially designed serial interface protocol. The serial
interface mode interconnection scheme is shown in Figure 6.
CPU
(Master)
MOSI
mosi
MISO
miso
SCLK
sclk
IA82527
(Slave)
cs_n
CS
Figure 6. mosi/miso Connection
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4.1.3
Data Sheet
December 20, 2012
I/O Ports
The IA82527 contains two 8-bit General Purpose Input Output (GPIO) ports. Each GPIO port is
selectable or programmable as either an input or an output. CPU interface modes may use some
of the GPIO pins or signals, precluding their use as GPIO. Six bits of GPIO Port 2 (p2.5 to p2.0)
are always available as GPIO. GPIO Port 2 bits 6 and 7 (p2.6 and p2.7) have alternate functions
as the alternate source for int_n and as the wrh_n input for CPU mode 2 and may be available as
GPIO depending on the CPU mode. GPIO Port 1 is available for use as GPIO in CPU
modes 0, 2, and SPI and is not available in CPU modes 1 and 3.
4.1.4
Programmable Clock Output
Using an oscillator, clock divider register, and a driver circuit, the IA82527 provides a
programmable clock output. The output frequency range available is from the external crystal
frequency to that frequency divided by 15. The clock output allows the IA82527 to drive other
devices such as the host CPU. The slew rate of the clkout signal is selectable via the CLKOUT
Register (1FH).
4.2
Address Map
The IA82527 includes 256 8-bit locations that provide device configuration registers and
message storage. The address map is shown in Table 8.
4.3
CAN Message Objects
Each CAN message object has a unique identifier and can be configured as either transmit or
receive, except for message object 15. Message object 15 is a double-buffered receive-only
buffer with a special mask design to allow select groups of different message identifiers to be
received. Each message object contains registers for control and status bits.
All message objects have separate transmit and receive interrupts and status bits that allow the
host CPU to determine when a message frame has been sent or received. The IA82527
implements a global masking feature that allows the user to globally mask any identifier bits of
the incoming message. This mask is programmable, which permits application-specific message
identification.
The Message Object Structure is shown in Table 9.
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Table 8. Address Map
Address
00H
01H
02H
03H
04–05H
06–07H
08–0BH
0C-0FH
10–1EH
1FH
20–2EH
2FH
30–3EH
3FH
40–4EH
4FH
50–5EH
5FH
60–6EH
6FH
70H–7EH
7FH
80–8EH
8FH
90–9EH
9FH
A0–AEH
AFH
B0–BEH
BFH
C0–CEH
CFH
D0–DEH
DFH
E0–EEH
EFH
F0–FEH
FFH
Register/Message
Control Register
Status Register
CPU Interface Register
Reserved
High-Speed Read Register
Global Mask—Standard
Global Mask—Extended
Message 15 Mask
Message 1
CLKOUT Register
Message 2
Bus Configuration Register
Message 3
Bit Timing Register 0
Message 4
Bit Timing Register 1
Message 5
Interrupt Register
Message 6
Reserved
Message 7
Reserved
Message 8
Reserved
Message 9
P1CONF Register
Message 10
P2CONF Register
Message 11
P1IN Register
Message 12
P2IN Register
Message 13
P1OUT Register
Message 14
P2OUT Register
Message 15
Serial Reset Address Register
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Table 9. Message Object Structure
Offset
(Base Address +n)
+0
+1
+2
+3
+4
+5
+6
+7
+8
+9
+10
+11
+12
+13
+14
Message Component
Control Register 0
Control Register 1
Arbitration Register 0
Arbitration Register 1
Arbitration Register 2
Arbitration Register 3
Message Configuration Register
Data Byte 0
Data Byte 1
Data Byte 2
Data Byte 3
Data Byte 4
Data Byte 5
Data Byte 6
Data Byte 7
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5.
Data Sheet
December 20, 2012
AC Specifications
The AC characteristics of the IA82527 are provided in the figures and tables of this chapter.
The IA82527 can be configured to operate in the following parallel and serial CPU interface
modes:
•
•
•
•
•
Mode 0: 8-Bit Multiplexed Intel Architecture
Mode 1: 16-Bit Multiplexed Intel Architecture
Mode 2: 8-Bit Multiplexed Non-Intel Architecture
Mode 3: 8-Bit Non-Multiplexed Non-Intel Architecture
Serial Interface Mode
The AC characteristics of these modes in operation are provided as follows:
•
•
•
•
•
•
•
•
•
•
•
Mode 0 and Mode 1: General Bus Timing (Tables 10 and 11/Figure 7)
Mode 0 and Mode 1: Ready Timing for Read Cycle (Table 10 and 11/Figure 8)
Mode 0 and Mode 1: Ready Timing for Write Cycle with No Write Pending (Table 10
and 11/Figure 9)
Mode 0 and Mode 1: Ready Timing for Write Cycle with Write Pending (Table 10 and
11/Figure 10)
Mode 2: General Bus Timing (Table 12 and 13/Figure 11)
Mode 3: Asynchronous Operation, Read Cycle (Table 14 and 15/Figure 12)
Mode 3: Asynchronous Operation, Write Cycle (Table 14 and 15/Figure 13)
Mode 3: Synchronous Operation, Read Cycle (Table 16 and 17/Figure 14)
Mode 3: Synchronous Operation, Write Cycle (Table 16 and 17/Figure 15)
Serial Interface Mode: icp = 0 and cp = 0 (Table 18 and 19/Figure 16)
Serial Interface Mode: icp = 1 and cp = 1 (Table 18 and 19/Figure 17)
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Table 10. Mode 0 and Mode 1: General Bus and Ready Timing for 5.0V Operation
Symbol
1/tXTAL
1/tSCLK
1/tMCLK
tAVLL
tLLAX
tLHLL
tLLRL
tCLLL
tQVWH
tWHQX
tWLWH
tWHLH
tWHCH
tRLRH
tRLDV
tRLDV1
tRLDV1
tRHDZ
tCLYV
tWLYZ
HYZ
tRLYZ
tRLYZ
tWHDV
tCOPO
tCHCL
Parameter
Oscillator Frequency
System Clock Frequency
Memory Clock Frequency
Address Valid to ale Low
Address Hold after ale Low
ale High Time
ale Low to rd_n Low
cs_n Low to ale Low
Data Setup to wr_n or wrh_n High
Input Data Hold after wr_n or wrh_n High
wr_n or wrh_n Pulse Width
wr_n or wrh_n High to Next ale High
wr_n or wrh_n High to cs_n High
rd_n Pulse Width. This time is long enough to initiate a double
read cycle by loading the High Speed Registers (04H, 05H), but is
too short to read from 04H and 05H (see tRLDV).
rd_n Low to Data Valid (only for Registers 02H, 04H, 05H)
rd_n Low Data to Data Valid (for all Registers except 02H, 04H,
05H) for Read Cycle without a Previous Writea
rd_n Low Data to Data Valid (for all Registers except 02H, 04H,
05H) for Read Cycle with a Previous Write
Data Float after rd_n High
cs_n Low to ready Setup (Load Capacitance on the ready Output
= 50 pF, VOL = 1.0 V)
cs_n Low to ready Setup (Load Capacitance on the ready Output
= 50 pF, VOL = 0.45 V)
wr_n or wrh_n Low to ready Float for a Write Cycle if No Previous
Write is Pending
End of Last Write to ready Float for a Write Cycle if a Previous
Write Cycle is Activeb
rd_n Low to ready Float (for all registers except 02H, 04H, 05H)
for Read Cycle without a Previous Writea
rd_n Low to ready Float (for all registers except 02H, 04H, 05H)
for Read Cycle with a Previous Write
wr_n or wrh_n High to Output Data Valid on Port 1 or Port 2
clkout Period (CDV is the value loaded in the CLKOUT Register
representing the clkout divisor)
clkout High Period (CDV is the value loaded in the CLKOUT
Register representing the clkout divisor)
Minimum
8 MHz
4 MHz
2 MHz
7.5 ns
10 ns
30 ns
20 ns
10 ns
27 ns
10 ns
30 ns
8 ns
0 ns
40 ns
Maximum
16 MHz
10 MHz
8 MHz
–
–
–
–
–
–
–
–
–
–
–
0 ns
–
0 ns
–
55 ns
1.5 tMCLK +
100 ns
3.5 tMCLK +
100 ns
45 ns
32 ns
–
40 ns
–
145 ns
–
2 tMCLK +
100 ns
2 tMCLK +
100 ns
4 tMCLK +
100 ns
2 tMCLK +
500 ns
–
–
–
–
tMCLK
(CDV + 1) ×
tOSC
(CDV + 1) × (CDV + 1) ×
½ tOSC – 10 ½ tOSC + 15
aA “Read Cycle without a Previous Write” is where a read cycle follows a write cycle and there is greater
than 2×tMCLK between the rising edge of wr_n or wrh_n and the falling edge of rd_n.
bA “Previous Write Cycle is Active” is where the rising edge of wr_n or wrh_n for the second write is less
than 2×tMCLK after the rising edge of wr_n or wrh_for the first write.
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Data Sheet
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Table 11. Mode 0 and Mode 1: General Bus and Ready Timing for 3.3V Operation
Symbol
1/tXTAL
1/tSCLK
1/tMCLK
tAVLL
tLLAX
tLHLL
tLLRL
tCLLL
tQVWH
tWHQX
tWLWH
tWHLH
tWHCH
tRLRH
tRLDV
tRLDV1
tRLDV1
tRHDZ
tCLYV
tWLYZ
HYZ
tRLYZ
tRLYZ
tWHDV
tCOPO
tCHCL
Parameter
Oscillator Frequency
System Clock Frequency
Memory Clock Frequency
Address Valid to ale Low
Address Hold after ale Low
ale High Time
ale Low to rd_n Low
cs_n Low to ale Low
Data Setup to wr_n or wrh_n High
Input Data Hold after wr_n or wrh_n High
wr_n or wrh_n Pulse Width
wr_n or wrh_n High to Next ale High
wr_n or wrh_n High to cs_n High
rd_n Pulse Width. This time is long enough to initiate a double
read cycle by loading the High Speed Registers (04H, 05H), but is
too short to read from 04H and 05H (see tRLDV).
rd_n Low to Data Valid (only for Registers 02H, 04H, 05H)
rd_n Low Data to Data Valid (for all Registers except 02H, 04H,
05H) for Read Cycle without a Previous Writea
rd_n Low Data to Data Valid (for all Registers except 02H, 04H,
05H) for Read Cycle with a Previous Write
Data Float after rd_n High
cs_n Low to ready Setup (Load Capacitance on the ready Output
= 50 pF, VOL = 1.0 V)
cs_n Low to ready Setup (Load Capacitance on the ready Output
= 50 pF, VOL = 0.45 V)
wr_n or wrh_n Low to ready Float for a Write Cycle if No Previous
Write is Pending
End of Last Write to ready Float for a Write Cycle if a Previous
Write Cycle is Activeb
rd_n Low to ready Float (for all registers except 02H, 04H, 05H)
for Read Cycle without a Previous Writea
rd_n Low to ready Float (for all registers except 02H, 04H, 05H)
for Read Cycle with a Previous Write
wr_n or wrh_n High to Output Data Valid on Port 1 or Port 2
clkout Period (CDV is the value loaded in the CLKOUT Register
representing the clkout divisor)
clkout High Period (CDV is the value loaded in the CLKOUT
Register representing the clkout divisor)
Minimum
8 MHz
4 MHz
2 MHz
7.5 ns
10 ns
30 ns
20 ns
10 ns
27 ns
10 ns
30 ns
8 ns
0 ns
40 ns
Maximum
16 MHz
10 MHz
8 MHz
–
–
–
–
–
–
–
–
–
–
–
0 ns
–
0 ns
–
75 ns
1.5 tMCLK +
100 ns
3.5 tMCLK +
100 ns
50 ns
32 ns
–
40 ns
–
145 ns
–
2 tMCLK +
100 ns
2 tMCLK +
100 ns
4 tMCLK +
100 ns
2 tMCLK +
500 ns
–
–
–
–
tMCLK
(CDV + 1) ×
tOSC
(CDV + 1) × (CDV + 1) ×
½ tOSC – 10 ½ tOSC + 15
aA “Read Cycle without a Previous Write” is where a read cycle follows a write cycle and there is greater
than 2×tMCLK between the rising edge of wr_n or wrh_n and the falling edge of rd_n.
bA “Previous Write Cycle is Active” is where the rising edge of wr_n or wrh_n for the second write is less
than 2×tMCLK after the rising edge of wr_n or wrh_for the first write.
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Figure 7. Mode 0 and Mode 1: General Bus Timing
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Figure 8. Mode 0 and Mode 1: Ready Timing for Read Cycle
Figure 9. Mode 0 and Mode 1: Ready Timing for Write Cycle with No Write Pending
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Figure 10. Mode 0 and Mode 1: Ready Timing for Write Cycle with Write Active
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Data Sheet
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Table 12. Mode 2: General Bus Timing for 5.0V Operation
Symbol
1/tXTAL
1/tSCLK
1/tMCLK
tAVSL
tSLAX
tELDZ
tEHDV
tQVEL
tELQX
tELDV
tEHEL
tELEL
tSHSL
tRSEH
tSLEH
tCLSL
tELCH
tCOPD
tCHCL
Parameter
Minimum
Maximum
Oscillator Frequency
8 MHz
16 MHz
System Clock Frequency
Memory Clock Frequency
Address Valid to as Low
Address Hold after as Low
Data Float after e Low
e High to Data Valid for Registers 02H, 04H, 05H
e High to Data Valid (all Registers except for 02H, 04H,
05H) for Read Cycle without a Previous Writea
e High to Data Valid (all Registers except for 02H, 04H,
05H) for Read Cycle with a Previous Write
Data Setup to e Low
Input Data Hold after e Low
e Low to Output Data Valid on Port 1/2
e High Time
End of previous write (Last E Low) to E Low for Write
Cycle
as High Time
Setup Time of r-w_n to e High
as Low to e High
cs_n Low to as Low
e Low to cs_n High
clkout Period (CDV is the value loaded in the CLKOUT
Register representing the clkout divisor)
clkout High Period (CDV is the value loaded in the
CLKOUT Register representing the clkout divisor)
4 MHz
2 MHz
7.5 ns
10 ns
0 ns
0 ns
10 MHz
8 MHz
–
–
45 ns
45 ns
1.5 tmclk + 100
ns
3.5 tmclk + 100
ns
–
–
2 tmclk + 500 ns
–
–
30 ns
20 ns
tmclk
45 ns
2 tmclk
30 ns
30 ns
20 ns
20 ns
0 ns
–
–
–
–
–
(CDV + 1) × tOSC
(CDV + 1) × ½
tOSC – 10
(CDV + 1) × ½
tOSC + 15
aA
“Read Cycle without a Previous Write” is where a read cycle follows a write cycle and where
the falling edge of e for the write and the rising edge of e for the read are separated by at least
2 × tMCLK.
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Data Sheet
December 20, 2012
Table 13. Mode 2: General Bus Timing for 3.3V Operation
Symbol
1/tXTAL
1/tSCLK
1/tMCLK
tAVSL
tSLAX
tELDZ
tEHDV
tQVEL
tELQX
tELDV
tEHEL
tELEL
tSHSL
tRSEH
tSLEH
tCLSL
tELCH
tCOPD
tCHCL
Parameter
Minimum
Maximum
Oscillator Frequency
8 MHz
16 MHz
System Clock Frequency
Memory Clock Frequency
Address Valid to as Low
Address Hold after as Low
Data Float after e Low
e High to Data Valid for Registers 02H, 04H, 05H
e High to Data Valid (all Registers except for 02H, 04H,
05H) for Read Cycle without a Previous Writea
e High to Data Valid (all Registers except for 02H, 04H,
05H) for Read Cycle with a Previous Write
Data Setup to e Low
Input Data Hold after e Low
e Low to Output Data Valid on Port 1/2
e High Time
End of previous write (Last E Low) to E Low for Write
Cycle
as High Time
Setup Time of r-w_n to e High
as Low to e High
cs_n Low to as Low
e Low to cs_n High
clkout Period (CDV is the value loaded in the CLKOUT
Register representing the clkout divisor)
clkout High Period (CDV is the value loaded in the
CLKOUT Register representing the clkout divisor)
4 MHz
2 MHz
7.5 ns
10 ns
0 ns
0 ns
10 MHz
8 MHz
–
–
45 ns
45 ns
1.5 tmclk + 100
ns
3.5 tmclk + 100
ns
–
–
2 tmclk + 500 ns
–
–
30 ns
20 ns
tmclk
45 ns
2 tmclk
30 ns
30 ns
20 ns
20 ns
0 ns
–
–
–
–
–
(CDV + 1) × tOSC
(CDV + 1) × ½
tOSC – 10
(CDV + 1) × ½
tOSC + 15
aA
“Read Cycle without a Previous Write” is where a read cycle follows a write cycle and where
the falling edge of e for the write and the rising edge of e for the read are separated by at least
2 × tMCLK.
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Figure 11. Mode 2: General Bus Timing
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Table 14. Mode 3: Asynchronous Operation Timing for 5.0V Operation
Symbol
1/tXTAL
1/tSCLK
1/tMCLK
tAVCL
tCLDV
tKLDV
tCHDV
tCHDH
tCHDZ
tCHKH1
tCHKH2
tCHKZ
tCHCL
tCHAI
tCHRI
tCLCH
tDVCH
tCLKL
tCHKL
tCOPD
tCHCL
Parameter
Oscillator Frequency
System Clock Frequency
Memory Clock Frequency
Address or r-w_n Valid to cs_n Low Setup
cs_n Low to Data Valid (for High-Speed Registers 02H, 04H,
and 05H)
cs_n Low to Data Valid (for Low-Speed Registers) Read
Cycle without Previous Writea
cs_n Low to Data Valid (for Low-Speed Registers) Read
Cycle with Previous Write
dsack0_n Low to Output Data Valid (for High-Speed Read
Registers)
dsack0_n Low to Output Data Valid (for Low-Speed Read
Registers)
Input Data Hold after cs_n High
Output Data Hold after cs_n High
cs_n High to Output Data Float
cs_n High to dsack0_n = 2.4V (an on-chip pull-up will drive
dsack0_n to approximately 2.4V; an external pull-up is
required to drive this signal to a higher voltage)
cs_n High to dsack0_n = 2.8V
Minimum
8 MHz
4 MHz
2 MHz
3 ns
0 ns
Maximum
16 MHz
10 MHz
8 MHz
–
55 ns
0 ns
–
1.5 tMCLK +
100 ns
3.5 tMCLK +
100 ns
23 ns
0 ns
–
15 ns
0 ns
–
0 ns
–
–
35 ns
55 ns
–
150 ns
cs_n High to dsack0_n Float
cs_n Width between Successive Cycles
cs_n High to Address Invalid
cs_n High to r-w_n Invalid
cs_n Width Low
CPU Write Data Valid to cs_n High
cs_n Low to dsack0_n Low (for High- and Low-Speed
Registers) Write Cycle without Previous Write
End of Previous Write (cs_n High) to dsack0_n Low for a
Write Cycle with a Previous Writeb
clkout Period (CDV is the value loaded in the CLKOUT
Register representing the clkout divisor)
clkout High Period (CDV is the value loaded in the CLKOUT
Register representing the clkout divisor)
0 ns
25 ns
7 ns
5 ns
65 ns
20 ns
0 ns
100 ns
–
–
–
–
–
67 ns
0 ns
2 tMCLK + 145
ns
0 ns
(CDV + 1) × tOSC
(CDV + 1) ×
½ tOSC – 10
(CDV + 1) × ½
tOSC + 15
aA
“Read Cycle without Previous Write” is where a read cycle follows a write cycle and where the rising
edge of cs_n for the write and the falling edge of cs_n for the read are separated by at least 2 × tMCLK.
bA “Write Cycle with a Previous Write” is a write cycle following a previous write cycle where the rising
edge of cs_n for the first write and the rising edge of cs_n for the second write are separated by at least
2 × tMCLK.
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Table 15. Mode 3: Asynchronous Operation Timing for 3.3V Operation
Symbol
1/tXTAL
1/tSCLK
1/tMCLK
tAVCL
tCLDV
tKLDV
tCHDV
tCHDH
tCHDZ
tCHKH1
tCHKH2
tCHKZ
tCHCL
tCHAI
tCHRI
tCLCH
tDVCH
tCLKL
tCHKL
tCOPD
tCHCL
Parameter
Oscillator Frequency
System Clock Frequency
Memory Clock Frequency
Address or r-w_n Valid to cs_n Low Setup
cs_n Low to Data Valid (for High-Speed Registers 02H, 04H,
and 05H)
cs_n Low to Data Valid (for Low-Speed Registers) Read
Cycle without Previous Writea
cs_n Low to Data Valid (for Low-Speed Registers) Read
Cycle with Previous Write
dsack0_n Low to Output Data Valid (for High-Speed Read
Registers)
dsack0_n Low to Output Data Valid (for Low-Speed Read
Registers)
Input Data Hold after cs_n High
Output Data Hold after cs_n High
cs_n High to Output Data Float
cs_n High to dsack0_n = 2.4V (an on-chip pull-up will drive
dsack0_n to approximately 2.4V; an external pull-up is
required to drive this signal to a higher voltage)
cs_n High to dsack0_n = 2.8V
Minimum
8 MHz
4 MHz
2 MHz
3 ns
0 ns
Maximum
16 MHz
10 MHz
8 MHz
–
60 ns
0 ns
–
1.5 tMCLK +
100 ns
3.5 tMCLK +
100 ns
35 ns
0 ns
–
15 ns
0 ns
–
0 ns
–
–
35 ns
55 ns
–
150 ns
cs_n High to dsack0_n Float
cs_n Width between Successive Cycles
cs_n High to Address Invalid
cs_n High to r-w_n Invalid
cs_n Width Low
CPU Write Data Valid to cs_n High
cs_n Low to dsack0_n Low (for High- and Low-Speed
Registers) Write Cycle without Previous Write
End of Previous Write (cs_n High) to dsack0_n Low for a
Write Cycle with a Previous Writeb
clkout Period (CDV is the value loaded in the CLKOUT
Register representing the clkout divisor)
clkout High Period (CDV is the value loaded in the CLKOUT
Register representing the clkout divisor)
0 ns
25 ns
7 ns
6.5 ns
65 ns
20 ns
0 ns
100 ns
–
–
–
–
–
67 ns
0 ns
2 tMCLK + 145
ns
0 ns
(CDV + 1) × tOSC
(CDV + 1) ×
½ tOSC – 10
(CDV + 1) × ½
tOSC + 15
aA
“Read Cycle without Previous Write” is where a read cycle follows a write cycle and where the rising
edge of cs_n for the write and the falling edge of cs_n for the read are separated by at least 2 × tMCLK.
bA “Write Cycle with a Previous Write” is a write cycle following a previous write cycle where the rising
edge of cs_n for the first write and the rising edge of cs_n for the second write are separated by at least
2 × tMCLK.
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Figure 12. Mode 3: Asynchronous Operation, Read Cycle
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Figure 13. Mode 3: Asynchronous Operation, Write Cycle
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Table 16. Mode 3: Synchronous Operation Timing for 5.0V Operation
Symbol
1/tXTAL
1/tSCLK
1/tMCLK
tEHDV
tELDH
tELDZ
tELDV
tAVEH
tELAV
tCVEH
tELCV
tDVEL
tEHEL
tAVAV
tAVCL
tCHAI
tCOPD
tCHCL
Parameter
Oscillator Frequency
System Clock Frequency
Memory Clock Frequency
e High to Data Valid (for High-Speed Registers 02H,
04H, and 5H)
e High to Data Valid (for Low-Speed Registers) Read
Cycle without Previous Writea
e High to Data Valid (for Low-Speed Registers) Read
Cycle with Previous Write
Data Hold after e Low for a Read Cycle
Data Float after e Low
Data Hold after e Low for a Write Cycle
Address and r-w_n to e Setup
Address and r-w_n Valid after e Falls
cs_n Valid to e High
cs_n Valid after e Low
Data Setup to e Low
e Active Width
Start of a Write Cycle after a Previous Write Access
Address or r-w_n to cs_n Low Setup
cs_n High Address Invalid
clkout Period (CDV is the value loaded in the CLKOUT
Register representing the clkout divisor)
clkout High Period (CDV is the value loaded in the
CLKOUT Register representing the clkout divisor)
Minimum
8 MHz
4 MHz
2 MHz
–
Maximum
16 MHz
10 MHz
8 MHz
55 ns
–
1.5 tMCLK + 100
ns
–
3.5 tMCLK + 100
ns
5 ns
–
–
35 ns
15 ns
–
25 ns
–
15 ns
–
0 ns
–
0 ns
–
55 ns
–
100 ns
–
2 tMCLK
–
3 ns
–
7 ns
–
(CDV + 1) × tOSC
(CDV + 1) × ½
tOSC – 10
(CDV + 1) × ½
tOSC + 15
aA
“Read Cycle without Previous Write” is where a read cycle follows a write cycle and where the falling
edge of e for the write cycle and the rising edge of e for the read cycle are separated by at least 2 × tMCLK.
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Table 17. Mode 3: Synchronous Operation Timing for 3.3V Operation
Symbol
1/tXTAL
1/tSCLK
1/tMCLK
tEHDV
tELDH
tELDZ
tELDV
tAVEH
tELAV
tCVEH
tELCV
tDVEL
tEHEL
tAVAV
tAVCL
tCHAI
tCOPD
tCHCL
Parameter
Oscillator Frequency
System Clock Frequency
Memory Clock Frequency
e High to Data Valid (for High-Speed Registers 02H,
04H, and 5H)
e High to Data Valid (for Low-Speed Registers) Read
Cycle without Previous Writea
e High to Data Valid (for Low-Speed Registers) Read
Cycle with Previous Write
Data Hold after e Low for a Read Cycle
Data Float after e Low
Data Hold after e Low for a Write Cycle
Address and r-w_n to e Setup
Address and r-w_n Valid after e Falls
cs_n Valid to e High
cs_n Valid after e Low
Data Setup to e Low
e Active Width
Start of a Write Cycle after a Previous Write Access
Address or r-w_n to cs_n Low Setup
cs_n High Address Invalid
clkout Period (CDV is the value loaded in the CLKOUT
Register representing the clkout divisor)
clkout High Period (CDV is the value loaded in the
CLKOUT Register representing the clkout divisor)
Minimum
8 MHz
4 MHz
2 MHz
–
Maximum
16 MHz
10 MHz
8 MHz
60 ns
–
1.5 tMCLK + 100
ns
–
3.5 tMCLK + 100
ns
5 ns
–
–
50 ns
15 ns
–
25 ns
–
15 ns
–
0 ns
–
0 ns
–
55 ns
–
100 ns
–
2 tMCLK
–
3 ns
–
7 ns
–
(CDV + 1) × tOSC
(CDV + 1) × ½
tOSC – 10
(CDV + 1) × ½
tOSC + 15
aA
“Read Cycle without Previous Write” is where a read cycle follows a write cycle and where the falling
edge of e for the write cycle and the rising edge of e for the read cycle are separated by at least 2 × tMCLK.
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Figure 14. Mode 3: Synchronous Operation, Read Cycle Timing
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Figure 15. Mode 3: Synchronous Operation, Write Cycle Timing
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Table 18. Serial Interface Mode Timing for 5.0V Operation
Symbol
sclk
tCYC
tSKHI
tSKLO
tLEAD
tLAG
tACC
tPDO
tHO
tDIS
tSETUP
tHOLD
tRISE
tFALL
tCS
tCOPD
tCHCL
Parameter
Serial Port Interface Clock
1/sclk
Minimum Clock High Time
Minimum Clock Low Time
Enable Lead Time
Enable Lag Time
Access Time
Maximum Data Out Delay Time
Minimum Data Out Hold Time
Maximum Data Out Disable Time
Minimum Data Setup Time
Minimum Data Hold Time
Maximum Time for Input to go from VOL to VOH
Maximum Time for input to go from VOH to VOL
Minimum Time between Consecutive cs_n Assertions
clkout Period (CDV is the value loaded in the CLKOUT
Register representing the clkout divisor)
clkout High Period (CDV is the value loaded in the
CLKOUT Register representing the clkout divisor)
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Minimum
Maximum
0.5 MHz
8 MHz
125 ns
2000 ns
65 ns
–
65 ns
–
70 ns
–
109 ns
–
–
60 ns
–
59 ns
0 ns
–
–
665 ns
35 ns
–
84 ns
–
–
100 ns
–
100 ns
670 ns
–
(CDV + 1) × tOSC
(CDV + 1) × ½
tOSC – 10
(CDV + 1) × ½
tOSC + 15
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Table 19. Serial Interface Mode Timing for 3.3V Operation
Symbol
sclk
tCYC
tSKHI
tSKLO
tLEAD
tLAG
tACC
tPDO
tHO
tDIS
tSETUP
tHOLD
tRISE
tFALL
tCS
tCOPD
tCHCL
Parameter
Serial Port Interface Clock
1/sclk
Minimum Clock High Time
Minimum Clock Low Time
Enable Lead Time
Enable Lag Time
Access Time
Maximum Data Out Delay Time
Minimum Data Out Hold Time
Maximum Data Out Disable Time
Minimum Data Setup Time
Minimum Data Hold Time
Maximum Time for Input to go from VOL to VOH
Maximum Time for input to go from VOH to VOL
Minimum Time between Consecutive cs_n Assertions
clkout Period (CDV is the value loaded in the CLKOUT
Register representing the clkout divisor)
clkout High Period (CDV is the value loaded in the
CLKOUT Register representing the clkout divisor)
IA211080504-07
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Minimum
Maximum
0.5 MHz
8 MHz
125 ns
2000 ns
65 ns
–
65 ns
–
70 ns
–
109 ns
–
–
60 ns
–
59 ns
0 ns
–
–
665 ns
35 ns
–
84 ns
–
–
100 ns
–
100 ns
670 ns
–
(CDV + 1) × tOSC
(CDV + 1) × ½
tOSC – 10
(CDV + 1) × ½
tOSC + 15
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Figure 16. Serial Interface Mode: icp = 0 and cp = 0
Figure 17. Serial Interface Mode: icp = 1 and cp = 1
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6.
Data Sheet
December 20, 2012
Innovasic Part Number Cross-Reference
Table 20 cross-references the current Innovasic part number with the corresponding Intel part
number.
Table 20. Innovasic Part Number Cross-Reference
Innovasic Part Number
Intel Part Number
Package Type
Temperature Grades
IA82527PQF44AR2
AS82527
44-Pin PQFP
Automotive
(lead free–RoHS)
AS82527F8
44-Pin PLCC
Automotive
QE82527
IA82527PLC44AR2
AN82527
(lead free–RoHS)
AN82527F8
QX82527
TN82527
EN82527
Other packages and temperature grades may also be available.
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7.
Errata
7.1
Summary
Data Sheet
December 20, 2012
Version 2 Part Numbers
IA82527PQF44AR2
Errata
No.
7.2
Problem
IA82527PLC44AR2
1
The CPU writes to Msg Box 15 RAM cannot be read back if
MsgVal is set.
Exists
2
Setting the IntPnd bit to 1 from CPU interface will not cause
Interrupt.
Exists
3
An unintended Remote Frame may be generated.
Exists
4
Majority Logic sample mode delays start of ACK bit transmission
by one time quanta.
Exists
5
dsack0_n signal may not respond properly under certain
conditions.
Exists
Detail
Errata No. 1
Problem: The CPU writes to Msg Box 15 RAM cannot be read back if MsgVal is set.
Description: If the MsgVal bit (Bits [7–6]) of Msg Box 15 Control_0 register (0xF0) is set, any
CPU writes to the Msg Box 15 arbitration 0–3 registers (0xF2–0xF5), and data 0–7 registers
(0xF7–0xFE) will operate properly, however CPU reads of these registers will return unknown
data. In other words, any CPU data written to Msg Box 15 will not be read back correctly if the
MsgVal bit is set. If the MsgVal bit (Bits [7–6]) of Msg Box 15 Control_0 register (0xF0) is
reset, CPU data written can be read back normally.
Workaround: The workaround is to clear the MsgVal bit (Bits [7–6]) of Msg Box 15 Control_0
register (0xF0) before trying to read back any CPU data written to the Msg Box 15 arbitration
0–3 registers (0xF2–0xF5), and data 0–7 registers (0xF7–0xFE).
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Data Sheet
December 20, 2012
Errata No. 2
Problem: Setting the IntPnd bit to 1 from CPU interface will not cause Interrupt.
Description: During normal operation, a CAN message event sets the IntPnd bit of Control 0
Register of the appropriate message box (assuming appropriate interrupt enables are set), and the
interrupt signal is asserted. The CPU will then reset IntPnd to clear the interrupt. The errata
issue occurs if the user directly sets the IntPnd bit via the CPU interface, no interrupt will be
generated.
Workaround: None.
Errata No. 3
Problem: An unintended Remote Frame may be generated.
Description: If a Message Box is set to receive and a Remote Frame with a matching ID and
Data Length Code (DLC) is received, the IA82527 will generate an unexpected Remote Frame
for the ID in the Message Box instead of just acknowledging the CAN message.
A Message Box configured as follows may lead to this scenario, as explained below:
1. A Message Box is set with an ID in the Arbitration Registers to match the ID of Remote
Frame.
2. The Message Box Control_0 Register has MsgVal(Bits[7-6]) in the set state.
3. The Message Box Control_1 Register has all fields in the reset state.
4. The Message Box Configuration Register has the Dir bit (bit 3) reset to 0 for receive.
5. The Message Box Configuration Register has the DLC field set to match the DLC of the
Remote Frame.
When the IA82527 sees a Remote Frame that matches the Message Box ID and DLC, the
IA82527 will generate the expected RX_OK status change interrupt. The IA82527 will also
generate an unexpected RX interrupt for the Message Box that matches the ID of the Remote
Frame if the RXIE field of the Message Box Control_0 register is in the set state. In addition,
the IA82527 will generate an unexpected Remote Frame for the ID in the Message Box.
Workaround: In a system that uses remote frames, only use a single Remote Frame Requester
for a single Remote Frame Responder.
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Data Sheet
December 20, 2012
Errata No. 4
Problem: Majority Logic sample mode delays start of ACK bit transmission by one time
quanta.
Description: When the SPL bit (Bit 7) of the Bit Timing Register 1 (0x4F) is set to 1 to enable
the 3 sample Majority Logic mode, the transmission of the ACK bit in response to a received
CAN frame will be time shifted by 1 time quanta. With sufficient cable propagation delays and
propagation delays through CAN transceiver parts, CAN nodes on the CAN bus may see the
ACK bit being a 0 shifted over into its ACK delimiter bit time and flag this as an error.
Workaround: Use Single Sample mode instead of Majority Logic Sample Mode. The SPL bit
of the Bit Timing Register 1 (bit 7 of address 0x4F) should be a 0.
Errata No. 5
Problem: dsack0_n signal may not respond properly under certain conditions.
Description: Under certain conditions when the cs_n is asserted near the edge of xtal1 the
dsack0_n signal may not be properly generated. Depending on the clock divider settings sys_clk
and mem_clk at address 0x02, if the setup or hold time for cs_n with respect to xtal1 edge (rising
or falling) is violated, it is possible that dsack0_n will not respond to the cycle. This can cause
problems for systems that are dependent upon dsack0_n to occur before releasing cs_n to finish
the cycle. Note: The cycle still operates correctly in respect to reading or writing of data, only
the dsack0_n signal may not be generated.
Workaround:
Workaround #1: Do not use dsack0_n as part of the bus cycle timing.
Workaround #2: cs_n must meet the following timing relationship with regards to the xtal1 clock
edge:
sys clock divide
1 dsc=0
2 dsc=1
edge of xtal1
rise
fall
setup (ns)
7
7
hold (ns)
16
16
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8.
Data Sheet
December 20, 2012
Revision History
Table 21 presents the sequence of revisions to document IA211080504.
Table 21. Revision History
Date
August 12, 2008
Revision
Description
Page(s)
00
First edition released.
NA
August 25, 2008
01
Errata No. 5 added.
49, 50
March 12, 2009
02
IA82527 - Rev 2 part marking and cross
48, 49, 51
reference information added; Errata No. 6
added.
March 27, 2009
03
Updated PLCC package dimensions
11
April 29, 2009
04
Updated Tables 3, 6, 10, 11, 12, 14 to revise
21, 26, 34, 38, 40,
various ratings and descriptions; Updated
46, 49, 50
Errata section to remove errata associated
with pre-production parts and to add one new
errata.
June 1, 2009
Sept. 16, 2009
05
06
Updated to include information for operation
6, 16, 26, 27, 33-51,
at 3.3V, and added Errata 4.
54-56
Corrected Tables 5 and 7 regarding ambient
25, 27
temperature range.
December 20, 2012
07
Added Errata #5.
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CAN Serial Communications Controller
9.
Data Sheet
December 20, 2012
For Further Information
The Innovasic Semiconductor IA82527 Controller Area Network (CAN) Serial Communications
Controller is a form, fit, and function replacement for the original Intel® 82527 Serial
Communications Controller.
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 Street NE
Suite A
Albuquerque, NM 87109
(505) 883-5263
Fax: (505) 883-5477
Toll Free: (888) 824-4184
E-mail: [email protected]
Website: http://www.Innovasic.com
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