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USB3250-ABZJ

Part # USB3250-ABZJ
Description USB 2.0 PHY UTMI - Trays
Category IC
Availability In Stock
Qty 5
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SMSC
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Technical Document


DISCLAIMER: The information provided herein is solely for informational purposes. Customers must be aware of the suitability of this product for their application, and consider that variable factors such as Manufacturer, Product Category, Date Codes, Pictures and Descriptions may differ from available inventory.

USB2.0 PHY IC
Datasheet
Revision 1.5 (03-24-06) 10 SMSC GT3200, SMSC USB3250
DATASHEET
Chapter 4 Interface Signal Definition
Table 4.1 System Interface Signals
NAME DIRECTION
ACTIVE
LEVEL DESCRIPTION
RESET Input High Reset. Reset all state machines. After coming out of reset, must
wait 5 rising edges of clock before asserting TXValid for transmit.
Assertion of Reset: May be asynchronous to CLKOUT
De-assertion of Reset: Must be synchronous to CLKOUT
XCVRSELECT Input N/A Transceiver Select. This signal selects between the FS and HS
transceivers:
0: HS transceiver enabled
1: FS transceiver enabled.
TERMSELECT Input N/A Termination Select. This signal selects between the FS and HS
terminations:
0: HS termination enabled
1: FS termination enabled
SUSPENDN Input Low Suspend. Places the transceiver in a mode that draws minimal
power from supplies. Shuts down all blocks not necessary for
Suspend/Resume operation. While suspended, TERMSELECT
must always be in FS mode to ensure that the 1.5k Ω pull-up on
DP remains powered.
0: Transceiver circuitry drawing suspend current
1: Transceiver circuitry drawing normal current
CLKOUT Output Rising Edge System Clock. This output is used for clocking receive and
transmit parallel data at 60MHz (8-bit mode) or 30MHz (16-bit
mode). When in 8-bit mode, this specification refers to CLKOUT
as CLK60. When in 16-bit mode, CLKOUT is referred to as
CLK30.
OPMODE[1:0] Input N/A Operational Mode. These signals select between the various
operational modes:
[1] [0] Description
0 0 0: Normal Operation
0 1 1: Non-driving (all terminations removed)
1 0 2: Disable bit stuffing and NRZI encoding
1 1 3: Reserved
LINESTATE[1:0] Output N/A Line State. These signals reflect the current state of the USB
data bus in FS mode, with [0] reflecting the state of DP and [1]
reflecting the state of DM. When the device is suspended or
resuming from a suspended state, the signals are combinatorial.
Otherwise, the signals are synchronized to CLKOUT.
[1] [0] Description
0 0 0: SE0
0 1 1: J State
1 0 2: K State
1 1 3: SE1
DATABUS16_8 Input N/A Databus Select. Selects between 8-bit and 16-bit data transfers.
0: 8-bit data path enabled. VALIDH is undefined. CLKOUT =
60MHz.
1: 16-bit data path enabled. CLKOUT = 30MHz.
USB2.0 PHY IC
Datasheet
SMSC GT3200, SMSC USB3250 11 Revision 1.5 (03-24-06)
DATASHEET
Table 4.2 Data Interface Signals
NAME DIRECTION
ACTIVE
LEVEL DESCRIPTION
DATA[15:0] Bidir N/A
DATA BUS. 16-BIT BIDIRECTIONAL MODE.
TXVALID RXVALID VALIDH DATA[15:0]
0 0 X Not used
0 1 0 DATA[7:0] output is valid
for receive
VALIDH is an output
0 1 1 DATA[15:0] output is
valid for receive
VALIDH is an output
1 X 0 DATA[7:0] input is valid
for transmit
VALIDH is an input
1 X 1 DATA[15:0] input is valid
for transmit
VALIDH is an input
DATA BUS. 8-BIT UNIDIRECTIONAL MODE.
TXVALID RXVALID DATA[15:0]
00Not used
0 1 DATA[15:8] output is valid for receive
1 X DATA[7:0] input is valid for transmit
TXVALID Input High Transmit Valid. Indicates that the TXDATA bus is valid for
transmit. The assertion of TXVALID initiates the transmission of
SYNC on the USB bus. The negation of TXVALID initiates EOP
on the USB.
Control inputs (OPMODE[1:0], TERMSELECT,XCVRSELECT)
must not be changed on the de-assertion or assertion of TXVALID.
The PHY must be in a quiescent state when these inputs are
changed.
TXREADY Output High Transmit Data Ready. If TXVALID is asserted, the SIE must
always have data available for clocking into the TX Holding
Register on the rising edge of CLKOUT. TXREADY is an
acknowledgement to the SIE that the transceiver has clocked the
data from the bus and is ready for the next transfer on the bus. If
TXVALID is negated, TXREADY can be ignored by the SIE.
VALIDH Bidir N/A Transmit/Receive High Data Bit Valid (used in 16-bit mode
only). When TXVALID = 1, the 16-bit data bus direction is
changed to inputs, and VALIDH is an input. If VALIDH is asserted,
DATA[15:0] is valid for transmission. If deasserted, only DATA[7:0]
is valid for transmission. The DATA bus is driven by the SIE.
When TXVALID = 0 and RXVALID = 1, the 16-bit data bus
direction is changed to outputs, and VALIDH is an output. If
VALIDH is asserted, the DATA[15:0] outputs are valid for receive.
If deasseted, only DATA[7:0] is valid for receive. The DATA bus
is read by the SIE.
RXVALID Output High Receive Data Valid. Indicates that the RXDATA bus has received
valid data. The Receive Data Holding Register is full and ready to
be unloaded. The SIE is expected to latch the RXDATA bus on the
rising edge of CLKOUT.
RXACTIVE Output High Receive Active. Indicates that the receive state machine has
detected Start of Packet and is active.
RXERROR Output High Receive Error. 0: Indicates no error. 1: Indicates a receive error
has been detected. This output is clocked with the same timing as
the RXDATA lines and can occur at anytime during a transfer.
USB2.0 PHY IC
Datasheet
Revision 1.5 (03-24-06) 12 SMSC GT3200, SMSC USB3250
DATASHEET
Note 4.1 A Ferrite Bead (with DC resistance <.5 Ohms) is recommended for filtering between both
the VDD3.3 and VDDA3.3 supplies and the VDD1.8 and VDDA1.8 Supplies. See
Figure 8.9 Application Diagram for 64-pin TQFP Package on page 45.
Note 4.2 56-pin QFN package will down-bond all VSS and VSSA to exposed pad under IC.
Exposed pad must be connected to solid GND plane on printed circuit board.
Table 4.3 USB I/O Signals
NAME DIRECTION
ACTIVE
LEVEL DESCRIPTION
DP I/O N/A USB Positive Data Pin.
DM I/O N/A USB Negative Data Pin.
Table 4.4 Biasing and Clock Oscillator Signals
NAME DIRECTION
ACTIVE
LEVEL DESCRIPTION
RBIAS Input N/A External 1% bias resistor. Requires a 12KΩ resistor to ground.
Used for setting HS transmit current level and on-chip termination
impedance.
XI/XO Input N/A External crystal. 12MHz crystal connected from XI to XO.
Table 4.5 Power and Ground Signals
NAME DIRECTION
ACTIVE
LEVEL DESCRIPTION
VDD3.3 N/A N/A 3.3V Digital Supply. Powers digital pads. See Note 4.1
VDD1.8 N/A N/A 1.8V Digital Supply. Powers digital core.
VSS N/A N/A Digital Ground. See Note 4.2
VDDA3.3 N/A N/A 3.3V Analog Supply. Powers analog I/O and 3.3V analog
circuitry.
VDDA1.8 N/A N/A 1.8V Analog Supply. Powers 1.8V analog circuitry. See Note 4.1
VSSA N/A N/A Analog Ground. See Note 4.2
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