AMIS-49200EVB
AMIS-492x0 Fieldbus MAU
Evaluation Board User's
Manual
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EVAL BOARD USER’S MANUAL
Introduction
known to pass the Foundation Fieldbus Physical Layer
Conformance (Specification FF830, Rev 1.5).
The reference design discussed in this document also
includes additional flexible sub-circuits not discussed in the
AMIS-492x0 data sheet, that help the user optimally fit the
AMIS-492x0 to their application.
ON Semiconductor offers the AMIS-492x0 Fieldbus
Media Access Unit (MAU) as part of an overall industrial
network communication solution. Please refer to the
AMIS-492x0 data sheet for more information on this
integrated circuit. The scope of this user’s manual focuses
on a reference design and board that ON Semiconductor also
offers its customers, and which satisfies the Foundation
Fieldbus H1 or Profibus PA physical layer network
requirement.
This user’s manual helps the user design in the
AMIS-492x0 MAU, by referring to a usable board design
Process
Sensor
Fieldbus Node Description
Figure 1 shows a typical, complete node using the
AMIS-492x0.
RXA
Microprocessor,
I/O (A/D)
Fieldbus or
Profibus Link
Controller
+
RXS
AMIS−492x0
Fieldbus MAU
TXE
Discrete
Components
TXS
Fieldbus
Segment
Connection
PFAIL2
PFAIL1
RAM
Vo
ROM
VSHUNT
Reference Design in Figure 12 of Data Sheet
Figure 1. Complete Fieldbus Device using AMIS-492x0
AMIS-492x0 Fieldbus MAU Reference Design
A link controller is placed between a typical
microprocessor and the AMIS-492x0 MAU to provide
Manchester encoding and decoding of the data to be
transmitted or received, respectively. It may be possible to
program a high-end microprocessor to handle the
Manchester style data stream, but the effort to do so is likely
cost prohibitive.
One example of a suitable link controller is the
UFC100-F1 by Softing/Aniotek, Inc.
(http://www.softing.com/home/en/industrial-automation/p
roducts/foundation-fieldbus/device-integration/universal-f
ield-controller.php?navanchor=3010446)
© Semiconductor Components Industries, LLC, 2013
April, 2013 − Rev. 3
ON Semiconductor has developed a reference design for
commercial use in a Foundation Fieldbus H1 or Profibus PA
application.
Figure 12 in the AMIS-492x0 data sheet shows an
example of external circuitry required to connect the
AMIS-492x0 to an IEC 61158-2 conformant network. That
schematic is of a circuit that passed the Foundation Fieldbus
Physical Layer Conformance test as specified in Foundation
Fieldbus Specification FF830, Rev 1.5.
There are many alternative designs and it is beyond the
scope of this document to identify all possible
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Publication Order Number:
EVBUM2180/D
AMIS−49200EVB
configurations. We strongly encourage customers to use the
ON Semiconductor reference design to provide the most
effective application support.
Whether or not the ON Semiconductor reference design
is used, we recommend that the customer perform their own
physical layer board test to ensure conformance. In addition,
board layout can alter the behavior of all circuit
implementations, even designs that follow the
recommended implementation. Fieldbus Foundation
(www.fieldbus.org) provides the required test specifications
to their membership only. ON Semiconductor cannot
provide these specifications to customers.
Although the ON Semiconductor reference design in the
AMIS-492x0 data sheet passed physical layer conformance
as is, often this design can be slightly modified given unique
application-related traits. Figure 12 in the AMIS-492x0 data
sheet shows a general schematic independent of board
layout. Figure 2 shows the AMIS-492x0 reference design
that includes extra components to accommodate such
application flexibility. This schematic together with PCB
build files and a bill of material (BOM) constitute the
AMIS-492x0 reference design package which can be found
at the link listed in this document’s reference section. The
design in Figure 2 also passes the Foundation Fieldbus test
(FF830, Rev. 1.5).
Figure 2. AMIS-492x0 Reference Design Schematic
• Certain sub-circuits (e.g. voltage dividers) have been
Please note the following:
• A bridge rectifier was added to interface with the
medium. This allows proper, correct operation
regardless of polarity hook-up.
• Test points are included to provide convenient access to
the circuit for development purposes.
added to adjust analog (shunt regulator) supply voltage,
digital (series regulator) supply voltage, and loop current
settings (loop current regulator). Figure 2 shows these
components as “TBD” to be adjusted by the customer as
needed to modify the design to their application
requirements. The “TBD” resistors not installed by
default on the reference board are listed in Table 1.
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AMIS−49200EVB
divider. In this configuration R24, R10 and R7 are all
installed with 0 ohm resistors. R9, R8 and R23 are not
populated.
To disable the series regulator (e.g. to consume as little
power as possible), remove R24, R10 and R7. Install 0 Ohm
jumpers in R9 and R23, and leave R8 empty.
R9 shorts out the pass transistor so that it cannot turn on.
R23 grounds the non-inverting input to the regulator
amplifier and forces the output to saturate so that it cannot
oscillate. Removing R10 relieves the regulator amplifier
output of any possible load. Removing R7 isolates the
internal divider. Removing R24 disconnects the series
regulator output from the external (digital) rail.
Table 1. Components That May Be Modified on the
Reference Board
Resistor
Used to Adjust
R12
Shunt regulator voltage
R13
Shunt regulator voltage
R8
Series regulator voltage
R23
Series regulator voltage
R22
Loop current
Shunt Regulator
See Section 4.2.1 and Figure 4 in the AMIS-492x0 data
sheet.
As assembled the shunt regulator output will be 5.02 V at
Pin 8 (SHUNT). This voltage is set by connecting Pin 7
(SHSET) to Pin 6 (SHSETin) via R11 (zero W). This
connection connects the internal voltage divider to the shunt
regulator amplifier non-inverting input.
To set the shunt regulator output to another voltage,
remove R11 and install R12 and R13. The shunt regulator
voltage can be set in the range of 4.75 V to 6.2 V. The formula
for this is:
ǒ
Ǔ
R
V SHUNT + V ref @ 1 ) 12
R 13
Loop Current Regulator
The value of the loop current is set by the parallel
combination of R21 and R22. As shipped, R22 is not
installed and R21 = 49.9 kW. This sets the loop current to
10 mA. Decreasing the value of the parallel combination of
R21 and R22 increases the loop current. The formula to
calculate the value of the loop current is in Equation 3.
Customer Board Tips and Suggestions for Production
The customer might find the following suggestions
helpful in planning for production and/or development:
• Use full embedded power and ground planes in a
four-layer PCB configuration to reduce the likelihood
of noise. The AMIS-492x0 reference board is a
two-layer board to ease evaluation and development.
• To accommodate board space constraints, you might want
to use surface-mount components. The AMIS-492x0
reference board uses a few thru-hole components.
• Pin 36 (TXE) and Pin 37 (TXS) are CMOS digital
inputs and cannot float. If the board is not connected to
a link controller or other circuitry at JP1, TXS
(FB_TXS on JP1) must be pulled to VDD, and TXE
(FB_TXE on JP1) must be pulled to ground.
where V ref + 1.18 V (eq. 1)
Series Regulator
See Section 4.2.2 and Figure 5 in the AMIS-492x0 data
sheet.
As assembled the series regulator output will be 3.04 V at
Pin 16 (VO). This voltage is set by connecting Pin 13
(SRSET) to Pin 12 (SRSETin) via R7 (zero W). This
connection connects the internal voltage divider to the shunt
regulator amplifier non-inverting input. Also Pin 14
(SRAO) is connected to Pin 15 (SRTR) via R10 (zero W).
This connects the output of the series regulator amplifier to
the pass transistor.
To set the series regulator output to another voltage,
remove R7 and install R8 and R23. The series regulator
voltage can be set in the range of 2.85V to 3.5V. The formula
for this is:
ǒ
V O + V ref @ 1 )
Ǔ
R8
R 23
where V ref + 1.18 V
AMIS-492x0 Evaluation Kit (AMIS-49200EVB)
ON Semiconductor provides an evaluation kit that
showcases the AMIS-492x0 Fieldbus MAU on-board for
real-time
demonstration
and
evaluation.
The
AMIS-49200EVB kit includes:
• Reference board following the schematic in Figure 2,
including the AMIS-49200 device.
• Connector to aid evaluation of MAU and link controller
interface.
Please contact your local ON Semiconductor sales
representative for AMIS-49200EVB price and availability.
(eq. 2)
The board as shipped will be configured to have the series
regulator operating and set to 3 V using the internal voltage
NJƪǒ
V
drv
R
5
Ǔ*V
mid @
Ǔƫ @ R
ǒ
R
21ø22
R 5@(R 3)R
)
21ø22
I loop +
Nj NJ
14
* V mid @
ǒ
R
21ø22
R 3)R
21ø22
ǓNj
R 15
where: Vdrv = 2.5 V, Vmid = 2.0 V, R5 = R3 = 249 kW, R15 = 10 W, R21⎪⎪22 ≤ 49.9 kW
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3
(eq. 3)
AMIS−49200EVB
Appendix (A) Component Label Cross Reference
The component values in Figure 2 in this document and Figure 12 in the AMIS-492x0 data sheet are differently labeled. For
convenience, a cross-reference list is found in Table 2.
Table 2. Component Cross-Reference List between Reference Design and Data Sheet
Reference Board
Data Sheet
C1
C5
C2
C6
C3
C9
C4
Reference Board
Data Sheet
Reference Board
Data Sheet
D5
D3
R13
N/A
Q1
Q2
R14
R11
Q2
Q4
R15
R10
C8
Q3
Q3
R16
R8
C5
C3
Q4
Q1
R17
R7
C6
C1
R1
N/A
R18
R4
C7
C2
R2
R1
R19
R6
C8
C4
R3
R2
R20
R5
C9
C11
R4
n/a
R21
R3
C10
N/A
R5
R12
R22
N/A
C11
C10
R6
R9
R23
N/A
C12
C7
R7
N/A
R24
N/A
C13
N/A
R8
N/A
R25
N/A
D1
N/A
R9
N/A
U2
D1
D2
N/A
R10
N/A
U2
D2
D3
N/A
R11
N/A
VAA
Vshunt
D4
N/A
R12
N/A
References
• AMIS−492x0 Fieldbus MAU Data Sheet; http://www.onsemi.com/pub_link/Collateral/49200−D.PDF
• AMIS-492x0 Reference Design Package including schematic, BOM and PCB layout files;
http://onsemi.com/PowerSolutions/product.do?id=AMIS−49200−XTD
Company or Products Inquiry
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