CYP15G0401DXB-BGC Cypress Semiconductor Corp, CYP15G0401DXB-BGC Datasheet - Page 17
CYP15G0401DXB-BGC
Manufacturer Part Number
CYP15G0401DXB-BGC
Description
IC TXRX HOTLINK 256LBGA
Manufacturer
Cypress Semiconductor Corp
Series
HOTlink II™r
Type
Transceiverr
Datasheet
1.CYW15G0401DXB-BGXC.pdf
(53 pages)
Specifications of CYP15G0401DXB-BGC
Package / Case
256-LBGA Exposed Pad, 32-HLBGA
Number Of Drivers/receivers
4/4
Protocol
Multiprotocol
Voltage - Supply
3.135 V ~ 3.465 V
Mounting Type
Surface Mount
Product
PHY
Supply Voltage (min)
3.135 V
Supply Current
1.06 A
Maximum Operating Temperature
+ 70 C
Minimum Operating Temperature
0 C
Mounting Style
SMD/SMT
Number Of Channels
4
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
CYP15G0401DX-EVAL - IC TXRX HOTLINK 256-BGA
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Available stocks
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Document #: 38-02002 Rev. *L
Encoder
The character, received from the Input Register or Phase-align
Buffer and Parity Check Logic, is then passed to the Encoder
logic. This block interprets each character and any associated
control bits, and outputs a 10-bit transmission character.
Depending on the configured operating mode, the generated
transmission character may be
The selection of the specific characters generated are
controlled by the TXMODE[1:0], SCSEL, TXCTx[1:0], and
TXDx[7:0] inputs for each character.
Data Encoding
Raw data, as received directly from the Transmit Input
Register, is seldom in a form suitable for transmission across
a serial link. The characters must usually be processed or
transformed to guarantee
When the Encoder is enabled (TXMODE[1] ≠ LOW), the
characters to be transmitted are converted from Data or
Special Character codes to 10-bit transmission characters (as
selected by their respective TXCTx[1:0] and SCSEL inputs),
using an integrated 8B/10B Encoder. When directed to encode
the character as a Special Character code, it is encoded using
the Special Character encoding rules listed in Table 29. When
directed to encode the character as a Data character, it is
encoded using the Data Character encoding rules in Table 28.
The 8B/10B Encoder is standards compliant with ANSI/NCITS
ASC X3.230-1994 (Fibre Channel), IEEE 802.3z (Gigabit
Ethernet), the IBM
Video Broadcast (DVB-ASI), and ATM Forum standards for
data transport.
Many of the Special Character codes listed in Table 29 may be
generated by more than one input character. The
CYP(V)(W)15G0401DXB
independent (but non-overlapping) Special Character code
tables. This allows the CYP(V)(W)15G0401DXB to operate in
mixed environments with other Cypress HOTLink devices
using the enhanced Cypress command code set, and the
reduced command sets of other non-Cypress devices. Even
when used in an environment that normally uses non-Cypress
Special Character codes, the selective use of Cypress
• the 10-bit pre-encoded character accepted in the Input
• the 10-bit equivalent of the eight-bit Data character
• the 10-bit equivalent of the eight-bit Special Character code
• the 10-bit equivalent of the C0.7 SVS character if parity
• the 10-bit equivalent of the C0.7 SVS character if a
• a character that is part of the 511-character BIST sequence
• a K28.5 character generated as an individual character or
• a minimum transition density (to allow the serial receive PLL
• a DC-balance in the signaling (to prevent baseline wander).
• run-length limits in the serial data (to limit the bandwidth
• the remote receiver a way of determining the correct
Register
accepted in the Input Register
accepted in the Input Register
checking was enabled and a parity error was detected
Phase-align Buffer overflow or underflow error is present
as part of the 16-character Word Sync Sequence.
to extract a clock from the data stream).
requirements of the serial link).
character boundaries (framing).
ESCON
is
and FICON™ channels, Digital
designed
to
support
two
command codes can permit operation where running disparity
and error handling must be managed.
Following conversion of each input character from eight bits to
a 10-bit transmission character, it is passed to the Transmit
Shifter and is shifted out LSB first, as required by ANSI and
IEEE standards for 8B/10B coded serial data streams.
Transmit Modes
The operating mode of the transmit path is set through the
TXMODE[1:0] inputs. These static three-level select inputs
allow one of nine transmit modes to be selected. The transmit
modes are listed in Table 3
Table 3. Transmit Operating Modes
The encoded modes (TX Modes 3 through 8) support multiple
encoding tables. These encoding tables vary by the specific
combinations of SCSEL, TXCTx[1], and TXCTx[0] that are
used to control the generation of data and control characters.
These multiple encoding forms allow maximum flexibility in
interfacing to legacy applications, while also supporting
numerous extensions in capabilities.
TX Mode 0—Encoder Bypass
When the Encoder is bypassed, the character captured from
the TXDx[7:0] and TXCTx[1:0] inputs is passed directly to the
Transmit Shifter without modification. If parity checking is
enabled (PARCTL ≠ LOW) and a parity error is detected, the
10-bit character is replaced with the 1001111000 pattern
(+C0.7 character).
With the Encoder bypassed, the TXCTx[1:0] inputs are
considered part of the data character and do not perform a
control function that would otherwise modify the interpretation
of the TXDx[7:0] bits. The bit usage and mapping of these
control bits when the Encoder is bypassed is shown in Table 4.
In Encoder Bypass mode, the SCSEL input is ignored. All
clocking modes interpret the data the same, with no internal
linking between channels.
TX Modes 1 and 2—Factory Test Modes
These modes enable specific factory test configurations. They
are not considered normal operating modes of the device.
TX Mode
0
1
2
3
4
5
6
7
8
MM Atomic
MH Atomic
HM Interruptible
LM None
ML Atomic
HH Interruptible
LH None
HL Interruptible
LL
None
Word Sync
Sequence
Support
None
None
None
Special
Character
Word Sync
None
Special
Character
Word Sync
None
Operating Mode
Control
SCSEL
CYW15G0401DXB
CYP15G0401DXB
CYV15G0401DXB
Encoder Bypass
Reserved for test
Reserved for test
Encoder Control
Encoder Control
Encoder Control
Encoder Control
Encoder Control
Encoder Control
TXCTx Function
Page 17 of 53
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