NBSG86AMNG Datasheet NBSG86AMNG, NBSG86AMNR2G, NBSG86AMAG | P1-P3

© Semiconductor Components Industries, LLC, 2007

December, 2007 - Rev. 12

1 Publication Order Number:

NBSG86A/D

NBSG86A

2.5V/3.3V SiGe Differential

Smart Gate with Output

Level Select

The NBSG86A is a multi-function differential Logic Gate which

can be configured as an AND/NAND, OR/NOR, XOR/XNOR, or 2:1

MUX. This device is part of the GigaComm™ family of high

performance Silicon Germanium products. The device is housed in a

low profile 4x4 mm, 16-pin, flip-chip LGA or a 3x3 mm 16 pin QFN

package.

Differential inputs incorporate internal 50 W termination resistors

and accept NECL (Negative ECL), PECL (Positive ECL),

LVCMOS/LVTTL, CML, or LVDS. The Output Level Select (OLS)

input is used to program the peak-to-peak output amplitude between

0 and 800 mV in five discrete steps.

The NBSG86A employs input default circuitry so that under open

input conditions (D

, D

, VTD

VTSEL) the outputs of the

device will remain stable.

Features

•Maximum Input Clock Frequency > 8 GHz Typical

•Maximum Input Data Rate > 8 Gb/s Typical

•165 ps Typical Propagation Delay

•40 ps Typical Rise and Fall Times

•Selectable Swing PECL Output with Operating Range:

= 2.375 V to 3.465 V with V

= 0 V

•Selectable Swing NECL Output with NECL Inputs with

Operating Range: V

= 0 V with V

= -2.375 V to -3.465 V

•Selectable Output Level (0 V, 200 mV, 400 mV,

600 mV, or 800 mV Peak-to-Peak Output)

•50 W Internal Input Termination Resistors

•Pb-Free Packages are Available

FCBGA-16

BA SUFFIX

CASE 489

MARKING

DIAGRAMS*

86A

LYW

http://onsemi.com

A = Assembly Location

L = Wafer Lot

Y = Year

W = Work Week

G = Pb-Free Package

(Note: Microdot may be in either location)

*For additional marking information, refer to

Application Note AND8002/D.

QFN-16

MN SUFFIX

CASE 485G

86A

ALYWG

See detailed ordering and shipping information in the package

dimensions section on page 12 of this data sheet.

ORDERING INFORMATION

FCLGA-16

MA SUFFIX

CASE 526

NBSG

86A

ALYW

NBSG86A

http://onsemi.com

VTD1

SEL

OLS

VTD0 D0

VTSEL

D1 D1 VTD1

D0 VTD0

1234

Figure 1. BGA-16 and LGA-16 Pinout (Top View)

VTD1 D1 D1 VTD1

VTD0 D0 D0 VTD0

OLS

SEL

VTSEL

5678

16 15 14 13

NBSG86A

Exposed Pad

(EP)

Figure 2. QFN-16 Pinout (Top View)

Table 1. Pin Description

Name I/O Description

BGA QFN

C2 1 OLS

(Note 3)

Input Input Pin for the Output Level Select (OLS). See Table 2.

C1 2 SEL ECL, CML,

LVCMOS, LVDS,

LVTTL Input

Inverted Differential Select Logic Input.

B1 3 SEL ECL, CML,

LVCMOS, LVDS,

LVTTL Input

Noninverted Differential Select Logic Input.

B2 4 VTSEL -

Common Internal 50 W Termination Pin for SEL/SEL. See Table 7. (Note 1)

A1 5 VTD1 -

Internal 50 W termination pin. See Table 7. (Note 1)

A2 6 D1 ECL, CML,

LVCMOS, LVDS,

LVTTL Input

Noninverted Differential Input 1. Internal 75 kW to V

A3 7 D1 ECL, CML,

LVCMOS, LVDS,

LVTTL Input

Inverted Differential Input 1. Internal 75 kW to V

and 36.5 kW to V

A4 8 VTD1 -

Internal 50 W Termination Pin. See Table 7. (Note 1)

B3 9 V

- Positive Supply Voltage (Note 2)

B4 10 Q RSECL Output

Noninverted Differential Output. Typically Terminated with 50 W Resistor to

= V

- 2 V.

C4 11 Q RSECL Output

Inverted Differential Output. Typically Terminated with 50 W Resistor to

= V

- 2 V

C3 12 V

- Negative Supply Voltage (Note 2)

D4 13 VTD0 -

Internal 50 W Termination Pin. See Table 7. (Note 1)

D3 14 D0 ECL, CML,

LVCMOS, LVDS,

LVTTL Input

Inverted Differential Input 0. Internal 75 kW to V

and 36.5 kW to V

D2 15 D0 ECL, CML,

LVCMOS, LVDS,

LVTTL Input

Noninverted Differential Input 0. Internal 75 kW to V

D1 16 VTD0 -

Internal 50 W Termination Pin. See Table 7. (Note 1)

N/A - EP - Exposed Pad. The thermally exposed pad on package bottom (see case drawing)

must be attached to a heat-sinking conduit.

1. In the differential configuration when the input termination pins (VTDx, VTDx, VTSEL) are connected to a common termination voltage,

and if no signal is applied then the device will be susceptible to self-oscillation.

2. All V

and V

pins must be externally connected to Power Supply to guarantee proper operation.

3. When an output level of 400 mV is desired and V

- V

> 3.0 V, 2 kW resistor should be connected from OLS pin to V

NBSG86A

http://onsemi.com

Table 2. OUTPUT LEVEL SELECT OLS

OLS Q/Q VPP OLS Sensitivity

800 mV OLS - 75 mV

- 0.4 V 200 mV OLS $ 150 mV

- 0.8 V 600 mV OLS $ 100 mV

- 1.2 V 0 OLS $ 75 mV

(Note 4) 400 mV OLS $ 100 mV

Float 600 mV N/A

4. When an output level of 400 mV is desired and V

- V

> 3.0 V, 2.0 kW resistor should be

connected from OLS to V

Figure 3. Logic Diagram

SEL

VTD0

SEL

VTD0

50 W

VTD1

50 W

VTSEL

SEL

VTD0

SEL

VTD0

50 W

VTD1

50 W

VTSEL

Figure 4. Configuration for AND/NAND Function

VT or



Table 3. AND/NAND TRUTH TABLE (Note 5)



b  * b

D0 D1 SEL Q

0 0 0 0

0 0 1 0

0 1 0 0

0 1 1 1

5. D0, D1, SEL are inverse of D0, D1, SEL unless specified other‐

wise.

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15

NBSG86AMNG

Mfr. #:

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Manufacturer:

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Description:

Logic Gates 2.5V/3.3V SiGe Diff Smart Gate

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