CYP15G0101DXB-BBXC Cypress Semiconductor Corp, CYP15G0101DXB-BBXC Datasheet - Page 32
CYP15G0101DXB-BBXC
Manufacturer Part Number
CYP15G0101DXB-BBXC
Description
IC TXRX HOTLINK 100-LBGA
Manufacturer
Cypress Semiconductor Corp
Series
HOTlink II™r
Type
Transceiverr
Specifications of CYP15G0101DXB-BBXC
Package / Case
100-LBGA
Protocol
Fibre Channel
Voltage - Supply
3.135 V ~ 3.465 V
Mounting Type
Surface Mount
Product
PHY
Data Rate
1500 MBd
Supply Voltage (max)
3.465 V
Supply Voltage (min)
3.135 V
Supply Current
0.5 A
Maximum Operating Temperature
+ 70 C
Minimum Operating Temperature
0 C
Mounting Style
SMD/SMT
Number Of Channels
1
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
CYP15G0101DX-EVAL - EVAL BRD FOR HOTLINK II
Number Of Drivers/receivers
-
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Other names
428-2920
CYP15G0101DXB-BBXC
CYP15G0101DXB-BBXC
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Quantity
Price
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Quantity:
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CYP15G0101DXB-BBXC
Manufacturer:
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Document #: 38-02031 Rev. *J
based on the current running disparity value, and the Trans-
mitter calculates a new value for its running disparity based on
the contents of the transmitted character. Special Character
codes C1.7 and C2.7 can be used to force the transmission of
a specific Special Character with a specific running disparity
as required for some special sequences in X3.230.
After powering on, the Receiver may assume either a positive
or negative value for its initial running disparity. Upon reception
of any Transmission Character, the Receiver decides whether
the Transmission Character is valid or invalid according to the
following rules and tables and calculates a new value for its
Running Disparity based on the contents of the received
character.
The following rules for running disparity are used to calculate
the new running-disparity value for Transmission Characters
that have been transmitted (Transmitter’s running disparity)
and that have been received (Receiver’s running disparity).
Running disparity for a Transmission Character is calculated
from sub-blocks, where the first six bits (abcdei) form one
sub-block and the second four bits (fghj) form the other
sub-block. Running disparity at the beginning of the six-bit
sub-block is the running disparity at the end of the previous
Transmission Character. Running disparity at the beginning of
the four-bit sub-block is the running disparity at the end of the
six-bit sub-block. Running disparity at the end of the Trans-
mission Character is the running disparity at the end of the
four-bit sub-block.
Running disparity for the sub-blocks is calculated as follows:
Use of the Tables for Generating Transmission Characters
The appropriate entry in the table is found for the Valid Data
byte or the Special Character byte for which a Transmission
Character is to be generated (encoded). The current value of
the Transmitter’s running disparity is used to select the Trans-
mission Character from its corresponding column. For each
Table 19. Code Violations Resulting from Prior Errors
1. Running disparity at the end of any sub-block is positive if
2. Running disparity at the end of any sub-block is negative if
3. Otherwise, running disparity at the end of the sub-block is
Transmitted data character
Transmitted bit stream
Bit stream after error
Decoded data character
the sub-block contains more ones than zeros. It is also pos-
itive at the end of the six-bit sub-block if the six-bit sub-block
is 000111, and it is positive at the end of the four-bit
sub-block if the four-bit sub-block is 0011.
the sub-block contains more zeros than ones. It is also neg-
ative at the end of the six-bit sub-block if the six-bit
sub-block is 111000, and it is negative at the end of the
four-bit sub-block if the four-bit sub-block is 1100.
the same as at the beginning of the sub-block.
RD
–
–
–
–
101010 1001
101010 1011
Character
D21.1
D21.0
RD
–
–
+
+
Transmission Character transmitted, a new value of the
running disparity is calculated. This new value is used as the
Transmitter’s current running disparity for the next Valid Data
byte or Special Character byte to be encoded and transmitted.
Table 18 shows naming notations and examples of valid trans-
mission characters.
Use of the Tables for Checking the Validity of Received
Transmission Characters
The column corresponding to the current value of the
Receiver’s running disparity is searched for the received
Transmission Character. If the received Transmission
Character is found in the proper column, then the Trans-
mission Character is valid and the Data byte or Special
Character code is determined (decoded). If the received
Transmission Character is not found in that column, then the
Transmission Character is invalid. This is called a code
violation. Independent of the Transmission Character’s
validity, the received Transmission Character is used to
calculate a new value of running disparity. The new value is
used as the Receiver’s current running disparity for the next
received Transmission Character.
Table 18. Valid Transmission Characters
Detection of a code violation does not necessarily show that
the Transmission Character in which the code violation was
detected is in error. Code violations may result from a prior
error that altered the running disparity of the bit stream which
did not result in a detectable error at the Transmission
Character in which the error occurred. Table 19 shows an
example of this behavior.
Byte Name
010101 0101
010101 0101
D30.7
D31.7
Character
D0.0
D1.0
D2.0
D5.2
.
.
.
.
D10.2
D10.2
000
000
000
010
111
111
765
D
.
.
.
.
RD
IN
–
–
+
+
Data
or Q
CYW15G0101DXB
CYV15G0101DXB
CYP15G0101DXB
00000
00001
00010
00101
11110
11111
43210
OUT
.
.
.
.
Code Violation
111010 1010
111010 1010
Character
D23.5
Hex Value
Page 32 of 39
00
01
02
45
FE
FF
.
.
.
.
RD
+
+
+
+
[+] Feedback
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