NB7L11M
2.5�V/3.3�V Differential
1:2 Clock/Data Fanout
Buffer/Translator with CML
Outputs and Internal
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Termination
Description
The NB7L11M is a differential 1-to-2 clock/data distribution chip
with internal source termination and CML output structure, optimized
for low skew and minimal jitter. The device is functionally equivalent to
1
the EP11, LVEP11, or SG11 devices. Device produces two identical
QFN16
output copies of clock or data operating up to 8GHz or 12Gb/s,
MN SUFFIX
respectively. As such, NB7L11M is ideal for SONET, GigE, Fiber
CASE
Channel, Backplane and other clock/data distribution applications.
485G01
Inputs incorporate internal 50� termination resistors and accept
LVPECL, CML, LVCMOS, LVTTL, or LVDS (See Table 6).
Differential 16 mA CML output provides matching internal 50��
terminations, and 400 mV output swings when externally terminated,
MARKING DIAGRAM*
50� to V (See Figure 14).
CC
The device is offered in a low profile 3x3 mm 16-pin QFN package.
NB7L
Application notes, models, and support documentation are available at
11M
www.onsemi.com.
ALYW�
Features
�
Maximum Input Clock Frequency up to 8 GHz Typical
A = Assembly Location
Maximum Input Data Rate up to 12 Gb/s Typical
L = Wafer Lot
Y = Year
< 0.5 ps of RMS Clock Jitter
W = Work Week
< 10 ps of Data Dependent Jitter
� = Pb-Free Package
30 ps Typical Rise and Fall Times
(Note: Microdot may be in either location)
110 ps Typical Propagation Delay
*For additional marking information, refer to
3 ps Typical Within Device Skew
Application Note AND8002/D.
Operating Range: V = 2.375 V to 3.465 V with V = 0 V
CC EE
CML Output Level (400 mV Peak-to-Peak Output) Differential
Output Only
50� Internal Input and Output Termination Resistors
ORDERING INFORMATION
Functionally Compatible with Existing 2.5 V/3.3 V LVEL, LVEP, EP
Device Package Shipping
and SG Devices
NB7L11MMNG QFN16 123 Units/Tube
These Devices are Pb-Free, Halogen Free and are RoHS Compliant
(Pb-Free)
NB7L11MMNR2G QFN16 3000/Tape & Reel
Q0
V
TCLK (Pb-Free)
Q0
50 �
For information on tape and reel specifications, in-
cluding part orientation and tape sizes, please refer
CLK to our Tape and Reel Packaging Specifications
Brochure, BRD8011/D.
CLK
50 �
Q1
V
TCLK Q1
Figure 1. Logic Diagram
Semiconductor Components Industries, LLC, 2016 1 Publication Order Number:
August, 2016 Rev. 4
NB7L11M/DNB7L11M
Exposed Pad (EP)
V Q0 Q0 V
CC CC
16 15 14 13
V 1 12 V
TCLK EE
CLK 2 11 V
EE
NB7L11M
CLK V
3 10 EE
V V
TCLK 4 9 EE
56 7 8
V Q1 Q1 V
CC CC
Figure 2. QFN16 Pinout (Top View)
Table 1. PIN DESCRIPTION
Pin Name I/O Description
1 V Internal 50 � Termination Pin for CLK
TCLK
2 CLK LVPECL, CML, Inverted Differential Clock/Data Input. (Note 1)
LVCMOS, LVTTL,
LVDS
3 CLK LVPECL, CML, Noninverted Differential Clock/Data Input. (Note 1)
LVCMOS, LVTTL,
LVDS
4 V Internal 50 � Termination Pin for CLK
TCLK
5,8,13,16 V Positive Supply Voltage. All V pins must be externally connected to a Power Supply
CC CC
to guarantee proper operation.
6 Q1 CML Output Inverted CLK output 1 with internal 50 � source termination resistor. (Note 2)
7 Q1 CML Output Noninverted CLK output 1 with internal 50 � source termination resistor. (Note 2)
9,10,11,12 V Negative Supply Voltage. All V pins must be externally connected to a Power Supply
EE EE
to guarantee proper operation.
14 Q0 CML Output Inverted CLK output 0 with internal 50 � source termination resistor. (Note 2)
15 Q0 CML Output Noninverted CLK output 0 with internal 50 � source termination resistor. (Note 2)
EP Exposed Pad. The thermally exposed pad on package bottom (see case drawing) must
be attached to a heatsinking conduit. It is recommended to connect the EP to the lower
potential (V ).
EE
1. In the differential configuration when the input termination pins (V , V ) are connected to a common termination voltage or left open,
TCLK TCLK
and if no signal is applied on CLK and CLK then the device will be susceptible to self-oscillation.
2. CML outputs require 50 � receiver termination resistor to V for proper operation.
CC
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