GTL1655DGG Datasheet, PDF(1/23 Page) NXP Semiconductors – 16-bit LVTTL-to-GTL/GTL+ bus transceiver with live insertion

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GTL1655DGG Datasheet, PDF (1/23 Pages) NXP Semiconductors – 16-bit LVTTL-to-GTL/GTL+ bus transceiver with live insertion

GTL1655

16-bit LVTTL-to-GTL/GTL+ bus transceiver with live insertion

Rev. 01 â 11 May 2004

Product data

1. Description

The GTL1655 is a 16-bit bus transceiver that incorporates HIGH-drive

LOW-output-impedance (100 mA/12 â¦) with LVTTL-to-GTL/GTL+ and

GTL/GTL+-to-LVTTL logic level translation.

The device is conï¬gured as two 8-bit transceivers that share a common clock and a

master output enable pin, but also have individual latch timing and output enable

signals. D-type ï¬ip-ï¬ops and D-type latches enable three modes of data transfer;

Clocked, Latched, or Transparent. The GTL1655 provides the ideal interface between

cards operating at LVTTL levels and backplanes using GTL/GTL+ signal levels. The

combination of reduced output swing, reduced input threshold levels and conï¬gurable

edge control provides the higher speed operation of GTL/GTL+ backplanes.

The GTL1655 can be used at GTL (VTT = 1.2 V, VREF = 0.8 V) or GTL+ (VTT = 1.5 V,

VREF = 1.0 V) signalling levels. Port A and the control inputs are compliant with

LVTTL signal levels and are 5 V tolerant. Port B is designed to operate at GTL or

GTL+ signal levels, with VREF providing the reference voltage input.

The latch enable pins (nLEAB and nLEBA), the output enable pins (nOEAB, nOEBA)

and the clock pin (CP) are used to control the data ï¬ow through the two 8-bit

transceivers (n = 1 or 2). When nLEAB is set HIGH, the device will operate in the

transparent mode Port A to Port B. HIGH-to-LOW transitions of nLEAB will latch A

data independently of CP HIGH or LOW (latched mode). LOW-to-HIGH transitions of

CP will clock A data to the B port if nLEAB is LOW (clocked mode). Using the control

pins nLEBA, nOEBA and CP in the same way, data ï¬ow from Port B to Port A can be

controlled. The OE pin can be used to disable all of the I/O pins.

To optimize signal integrity, the GTL1655 features an adjustable edge rate control

(VERC). By adjusting VERC between GND and VCC, a designer can adjust the Port B

edge rate to suit an applicationâs load conditions.

The GTL1655 permits true live insertion capability by incorporating:

â¢ BIAS VCC, to pre-charge outputs and avoid disturbing active data during card

insertion.

â¢ Ioff to disable current ï¬ow through powered-off I/Os.

â¢ Power-up 3-state, which ensures outputs are high-impedance during power-up,

thus preventing bus contention issues. Once VCC is above 1.5 V, the power-up

3-state circuit relinquishes control of the outputs to the OE pin. To ensure the

outputs remain 3-state, the OE pin should be tied to VCC via a pull-up resistor.

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