NBSG86ABAEVB ON Semiconductor, NBSG86ABAEVB Datasheet - Page 3
NBSG86ABAEVB
Manufacturer Part Number
NBSG86ABAEVB
Description
BOARD EVAL BBG NBSG86ABA
Manufacturer
ON Semiconductor
Specifications of NBSG86ABAEVB
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
For Use With/related Products
NBSG86A/D
Other names
NBSG86ABAEVB
NBSG86ABAEVBOS
NBSG86ABAEVBOS
AND/NAND Function Setup (continued)
Step 2:
Step 3:
Step 4:
Connect the Inputs
For Differential Mode (3.3 V and 2.5 V operation)
For Single-Ended Mode (3.3 V operation only)
All Function Setups
Setup Input Signal
Connect Output Signals
NOTE:
2a: Connect the differential outputs of the generator to the differential inputs of the device
(D1/D1 and SEL/SEL).
2b: Connect the DO input to V
2c: Connect the DO input to V
2d: Connect the generator trigger to the oscilloscope trigger.
2a: Connect an AC-coupled output of the generator to the desired differential input of the
device.
2b: Connect the unused differential input of the device to V
tor.
2c: Connect the DO input to V
2d: Connect the DO input to V
2e: Connect the generator trigger to the oscilloscope trigger.
Connect OLS (Output Level Select) to the required voltage to obtain desired output ampli-
tude. Refer to the NBSG86A device data sheet page 2 OLS voltage table.
3a: Set the signal generator amplitude to 400 mV. Note that the signal generator amplitude
can vary from 75 mV to 900 mV to produce a 400 mV DUT output.
3b: Set the signal generator offset to 660 mV (the center of a nominal RSECL output). Note
that the V
offset to vary as long as V
further information.
3c: Set the generator output for a square wave clock signal with a 50% duty cycle, or for a
PRBS data signal.
4a: Connect the outputs of the evaluation board (Q, Q) to the oscilloscope. The
oscilloscope sampling head must have internal 50 W termination to ground.
Where a single output is being used, the unconnected output for the pair must be terminated to
V
V
TT
TT
through a 50 W resistor for best operation. Unused pairs may be left unconnected. Since
= 0 V, a standard 50 W SMA termination is recommended.
IHCMR
(Input High Voltage Common Mode Range) allows the signal generator
IH
is within the V
CC
TT
TT
CC
.
.
.
.
NBSG86ABAEVB
http://onsemi.com
IHCMR
3
range. Refer to the device data sheet for
TT
(GND) through a 50 W resis-
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