CYP15G0401TB-BGXC Cypress Semiconductor Corp, CYP15G0401TB-BGXC Datasheet - Page 10
CYP15G0401TB-BGXC
Manufacturer Part Number
CYP15G0401TB-BGXC
Description
IC TXRX HOTLINK 256LBGA
Manufacturer
Cypress Semiconductor Corp
Series
HOTlink II™r
Type
Transmitterr
Datasheet
1.CYP15G0401TB-BGC.pdf
(30 pages)
Specifications of CYP15G0401TB-BGXC
Package / Case
256-LBGA Exposed Pad, 32-HLBGA
Number Of Drivers/receivers
4/0
Protocol
Multiprotocol
Voltage - Supply
3.135 V ~ 3.465 V
Mounting Type
Surface Mount
Product
PHY
Supply Voltage (min)
3.135 V
Supply Current
0.77 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
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
CYP15G0401TB-BGXC
Manufacturer:
Cypress Semiconductor Corp
Quantity:
10 000
Document #: 38-02112 Rev. **
to absorb clock phase differences between the presently
selected input clock and the internal character clock.
Initialization of the Phase-align Buffers takes place when the
TXRST input is sampled LOW by two consecutive rising edges
of REFCLK. When TXRST is returned HIGH, the present input
clock phase relative to REFCLK is set. TXRST is an
asynchronous input, but is sampled internally to synchronize
it to the internal transmit path state machines.
Once set, the input clocks are allowed to skew in time up to
half a character period in either direction relative to REFCLK;
i.e., ±180°. This time shift allows the delay paths of the
character clocks (relative to REFCLK) to change due to
operating voltage and temperature, while not affecting the
design operation.
If the phase offset, between the initialized location of the input
clock and REFCLK↑, exceeds the skew handling capabilities
of the Phase-align Buffer, an error is reported on the
associated TXPERx output. This output indicates a continuous
error until the Phase-align Buffer is reset. While the error
remains active, the transmitter for the associated channel will
output a continuous C0.7 character to indicate to the remote
receiver that an error condition is present in the link.
In specific transmit modes, it is also possible to reset the
Phase-align Buffers individually and with minimal disruption of
the serial data stream. When the transmit interface is
configured for generation of atomic Word Sync Sequences
(TXMODE[1] = MID) and a Phase-align Buffer error is present,
the transmission of a Word Sync Sequence will re-center the
Phase-align Buffer and clear the error condition.
Parity Support
In addition to the ten data and control bits that are captured at
each transmit Input Register, a TXOPx input is also available
on each channel. This allows the CYP15G0401TB to support
ODD parity checking for each channel. Parity checking is
available for all operating modes (including Encoder Bypass).
The specific mode of parity checking is controlled by the
PARCTL input, and operates per Table 2.
When PARCTL is MID (open) and the Encoders are enabled
(TXMODE[1] ≠ LOW), only the TXDx[7:0] data bits are
checked for ODD parity along with the associated TXOPx bit.
When PARCTL = HIGH with the Encoder enabled (or MID with
the Encoder bypassed), the TXDx[7:0] and TXCTx[1:0] inputs
are checked for ODD parity along with the associated TXOPx
bit. When PARCTL = LOW, parity checking is disabled.
When parity checking and the Encoder are both enabled
(TXMODE[1] ≠ LOW), the detection of a parity error causes a
C0.7 character of proper disparity to be passed to the Transmit
Shifter. When the Encoder is bypassed (TXMODE[1] = LOW,
LOW), detection of a parity error causes a positive disparity
version of a C0.7 transmission character to be passed to the
Transmit Shifter.
Encoder
The character, received from the Input Register or Phase-align
Buffer and Parity Check Logic, is then passed to the Encoder
Notes:
4. The TXOPx inputs are also captured in the associated Input Register, but their interpretation is under the separate control of PARCTL.
5. One or more K28.5 characters may be added or lost from the data stream during this reset operation. When used with non-Cypress devices that require a complete
6. Transmit path parity errors are reported on the associated TXPERx output.
7. Bits marked as X are XORed together. Result must be a logic-1 for parity to be valid.
16-character Word Sync Sequence for proper Receive Elasticity Buffer alignment, it is recommend that the sequence be followed by a second Word Sync Sequence
to ensure proper operation.
[5]
PRELIMINARY
Table 2. Input Register Bits Checked for Parity
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
• 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 remote serial
• a DC-balance in the signaling (to prevent baseline wander).
• run-length limits in the serial data (to limit the bandwidth
TXCTx[0]
TXCTx[1]
TXDx[0]
TXDx[1]
TXDx[2]
TXDx[3]
TXDx[4]
TXDx[5]
TXDx[6]
TXDx[7]
TXOPx
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.
receive PLL to extract a clock from the data stream).
requirements of the serial link).
Signal
Name
LOW
Transmit Parity Check Mode (PARCTL)
TXMODE[1]
= LOW
X
X
X
X
X
X
X
X
X
X
X
[7]
CYP15G0401TB
MID
TXMODE[1]
≠ LOW
X
X
X
X
X
X
X
X
X
Page 10 of 30
[6]
HIGH
X
X
X
X
X
X
X
X
X
X
X
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