Datasheet

SN74GTLPH1616
17-BIT LVTTL-TO-GTLP ADJUSTABLE-EDGE-RATE UNIVERSAL BUS TRANSCEIVER
WITH BUFFERED CLOCK OUTPUTS
SCES346C– JANUARY 2001 REVISED AUGUST 2001
3–85
POST OFFICE BOX 655303 DALLAS, TEXAS 75265
functional description
The SN74GTLPH1616 is a high-drive (100 mA), 17-bit UBT transceiver containing D-type latches and D-type
flip-flops for data-path operation in transparent, latched, clocked, or clock-enabled modes and can replace any
of the functions shown in Table 1. Data polarity is noninverting.
Table 1. SN74GTLPH1616 UBT Transceiver Replacement Functions
FUNCTION 8 BIT 9 BIT 10 BIT 16 BIT 18 BIT
Transceiver ’245, ’623, ’645 ’863 ’861 ’16245, ’16623 ’16863
Buffer/driver ’241, ’244, ’541 ’827 ’16241, ’16244, ’16541 ’16825
Latched transceiver ’543 ’16543 ’16472
Latch ’373, ’573 ’843 ’841 ’16373 ’16843
Registered transceiver ’646, ’652 ’16646, ’16652 ’16474
Flip-flop ’374, ’574 ’821 ’16374
Standard UBT ’16500, ’16501
Universal bus driver ’16835
Registered transceiver with clock enable ’2952 ’16470, ’16952
Flip-flop with clock enable ’377 ’823 ’16823
Standard UBT with clock enable ’16600, ’16601
SN74GTLPH1616 UBT transceiver replaces all above functions
Additionally, the device allows for transparent conversion of CLKAB-to-GTLP signal levels (CLKOUT) and
CLKOUT-to-LVTTL logic levels (CLKIN).
Data flow in each direction is controlled by clock enables (CEAB
and CEBA), latch enables (LEAB and LEBA),
clock (CLKAB and CLKBA), and output enables (OEAB
and OEBA). CEAB and CEBA enable all 17 bits, and
OEAB
and OEBA control the 17 bits of data and the CLKOUT/CLKIN buffered clock path for the A-to-B and
B-to-A directions, respectively.
For A-to-B data flow, when CEAB
is low, the device operates on the low-to-high transition of CLKAB for the
flip-flop and on the high-to-low transition of LEAB for the latch path, i.e., if CEAB
and LEAB are low, the A data
is latched regardless of the state of CLKAB (high or low) and if LEAB is high, the device is in transparent mode.
When OEAB
is low, the outputs are active. When OEAB is high, the outputs are in the high-impedance state.
The data flow for B to A is similar to A to B, except CEBA
, OEBA, LEBA, and CLKBA are used.