Datasheet
SN74GTLP2033
8-BIT LVTTL-TO-GTLP ADJUSTABLE-EDGE-RATE REGISTERED TRANSCEIVER
WITH SPLIT LVTTL PORT AND FEEDBACK PATH
SCES352C – JUNE 2001 – REVISED SEPTEMBER 2001
3–151
POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
ORDERING INFORMATION
T
A
PACKAGE
†
ORDERABLE
PART NUMBER
TOP-SIDE
MARKING
TSSOP – DGG Tape and reel SN74GTLP2033DGGR GTLP2033
–40°C to 85°C
TVSOP – DGV Tape and reel SN74GTLP2033DGVR GT2033
VFBGA – GQL Tape and reel SN74GTLP2033GQLR GR033
†
Package drawings, standard packing quantities, thermal data, symbolization, and PCB design
guidelines are available at www.ti.com/sc/package.
functional description
The SN74GTLP2033 is a high-drive (100 mA), 8-bit, three-wire registered transceiver containing D-type latches
and D-type flip-flops for data-path operation in the transparent, latched, or flip-flop modes. Data transmission
is complementary, with inverted AI data going to the B port and inverted B data going to AO. The split LVTTL
AI and AO provides a feedback path for control and diagnostics monitoring.
The logic element for data flow in each direction is configured by two mode (IMODE1 and IMODE0 for B to A,
OMODE1 and OMODE0 for A to B) inputs as a buffer, D-type flip-flop, or D-type latch. When configured in the
buffer mode, the inverted input data appears at the output port. In the flip-flop mode, data is stored on the rising
edge of the appropriate clock (CLKAB/LEAB or CLKBA/LEBA) input. In the latch mode, the clock inputs serve
as active-high transparent latch enables.
Data flow in the B-to-A direction, regardless of the logic element selected, is further controlled by the
LOOPBACK input. When LOOPBACK is low, B-port data is the B-to-A input. When LOOPBACK is high, the
output of the selected A-to-B logic element (prior to inversion) is the B-to-A input.
The AO enable/disable control is provided by OEBA. When OEBA is low or when V
CC
is less than 1.5 V, AO
is in the high-impedance state. When OEBA is high, AO is active (high or low logic levels).
The B port is controlled by OEAB and OEAB
. If OEAB is low, OEAB is high, or V
CC
is less than 1.5 V, the B port
is inactive. If OEAB is high and OEAB
is low, the B port is active.
The A-to-B and B-to-A logic elements are active, regardless of the state of their associated outputs. The logic
elements can enter new data (in flip-flop and latch modes) or retain previously stored data while the associated
outputs are in the high-impedance (AO) or inactive (B port) states.