MOTOROLA MC100EP111

SEMICONDUCTOR TECHNICAL DATA
The MC100EP111 is a low skew 1–to–10 differential driver, designed
with clock distribution in mind. It accepts two clock sources into an input
multiplexer. The input signals can be either differential or single–ended if
the VBB output is used. The selected signal is fanned out to 10 identical
differential outputs.
•
•
•
•
•
•
•
LOW–VOLTAGE
1:10 DIFFERENTIAL
ECL/PECL CLOCK DRIVER
100ps Part–to–Part Skew
35ps Output–to–Output Skew
Differential Design
VBB Output
Voltage and Temperature Compensated Outputs
Low Voltage VEE Range of –2.375 to –3.8V
75kΩ Input Pulldown Resistors
The EP111 is specifically designed, modeled and produced with low
skew as the key goal. Optimal design and layout serve to minimize gate–
to–gate skew within a device, and empirical modeling is used to
determine process control limits that ensure consistent tpd distributions
from lot to lot. The net result is a dependable, guaranteed low skew
device.
FA SUFFIX
32–LEAD TQFP PACKAGE
CASE 873A–02
To ensure that the tight skew specification is met it is necessary that
both sides of the differential output are terminated into 50Ω, even if only
one side is being used. In most applications, all ten differential pairs will
be used and therefore terminated. In the case where fewer than ten pairs
are used, it is necessary to terminate at least the output pairs on the same
package side as the pair(s) being used on that side, in order to maintain
minimum skew. Failure to do this will result in small degradations of
propagation delay (on the order of 10–20ps) of the output(s) being used
which, while not being catastrophic to most designs, will mean a loss of
skew margin.
The MC100EP111, as with most other ECL devices, can be operated from a positive VCC supply in PECL mode. This allows
the EP111 to be used for high performance clock distribution in +3.3V or +2.5V systems. Designers can take advantage of the
EP111’s performance to distribute low skew clocks across the backplane or the board. In a PECL environment, series or
Thevenin line terminations are typically used as they require no additional power supplies. For more information on using PECL,
designers should refer to Motorola Application Note AN1406/D.
This document contains information on a product under development. Motorola reserves the right to change or
discontinue this product without notice.
2/97
 Motorola, Inc. 1997
1
REV 0.1
MC100EP111
Pinout: 32–Lead TQFP
(Top View)
PIN NAMES
Pins
CLKn, CLKn
Q0:9, Q0:9
CLK_SEL
VBB
Function
Differential Input Pairs
Differential Outputs
Active Clock Select Input
VBB Output
FUNCTION
Q3
Q3
Q4
Q4
Q5
Q5
Q6
Q6
24
23
22
21
20
19
18
17
VCCO
25
16
VCCO
Q2
26
15
Q7
Q2
27
14
Q7
Q1
28
13
Q8
MC100EP111
Q1
29
12
Q8
CLK_SEL
Active Input
Q0
30
11
Q9
0
1
CLK0, CLK0
CLK1, CLK1
Q0
31
10
Q9
VCCO
32
2
VCC
CLK_SEL
9
1
3
4
5
6
7
VCCO
8
CLK0 CLK0 VBB CLK1 CLK1 VEE
LOGIC SYMBOL
Q0
Q0
Q1
Q1
Q2
Q2
Q3
Q3
CLK0
CLK0
CLK1
0
Q4
1
Q4
CLK1
Q5
Q5
CLK_SEL
Q6
Q6
Q7
Q7
Q8
Q8
Q9
VBB
MOTOROLA
Q9
2
TIMING SOLUTIONS
BR1333 — Rev 6
MC100EP111
ECL DC CHARACTERISTICS
–40°C
Symbol
0°C
25°C
85°C
Characteristic
Min
Typ
Max
Min
Typ
Max
Min
Typ
Max
Min
Typ
Max
Unit
VOH
Output HIGH Voltage
–1.025
–0.955
–0.880
–1.025
–0.955
–0.880
–1.025
–0.955
–0.880
–1.025
–0.955
–0.880
V
VOL
Output LOW Voltage
–1.810
–1.705
–1.620
–1.810
–1.705
–1.620
–1.810
–1.705
–1.620
–1.810
–1.705
–1.620
V
VIH
Input HIGH Voltage
–1.165
–0.880
–1.165
–0.880
–1.165
–0.880
–1.165
–0.880
V
VIL
Input LOW Voltage
–1.810
–1.475
–1.810
–1.475
–1.810
–1.475
–1.810
–1.475
V
VBB
Output Reference
Voltage
–1.38
–1.26
–1.38
–1.26
–1.38
–1.26
–1.38
–1.26
V
VEE
Power Supply Voltage
–2.375
–3.8
–2.375
–3.8
–2.375
–3.8
–2.375
–3.8
V
IIH
Input HIGH Current
150
µA
IEE
Power Supply Current
150
150
150
mA
PECL DC CHARACTERISTICS
–40°C
Symbol
0°C
25°C
85°C
Characteristic
Min
Typ
Max
Min
Typ
Max
Min
Typ
Max
Min
Typ
Max
Unit
VOH
Output HIGH Voltage (1.)
2.275
2.345
2.420
2.275
2.345
2.420
2.275
2.345
2.420
2.275
2.345
2.420
V
VOL
Output LOW Voltage (1.)
1.490
1.595
1.680
1.490
1.595
1.680
1.490
1.595
1.680
1.490
1.595
1.680
V
VIH
Input HIGH Voltage (1.)
2.135
2.420
2.135
2.420
2.135
2.420
2.135
2.420
V
VIL
Input LOW Voltage (1.)
1.490
1.825
1.490
1.825
1.490
1.825
1.490
1.825
V
VBB
Output Reference
Voltage (Note 1.)
1.92
2.04
1.92
2.04
1.92
2.04
1.92
2.04
V
VCC
Power Supply Voltage
2.375
3.8
2.375
3.8
2.375
3.8
2.375
3.8
V
IIH
Input HIGH Current
IEE
Power Supply Current
150
150
150
150
µA
mA
1. These values are for VCC = 3.3V. Level Specifications will vary 1:1 with VCC.
AC CHARACTERISTICS (VEE = VEE (min) to VEE (max); VCC = VCCO = GND)
–40°C
Symbol
Characteristic
Min
Typ
0°C
Max
Min
25°C
Typ
Max
Min
Typ
85°C
Max
Min
Typ
Max
Unit
tPLH
tPHL
Propagation Delay to Output
IN (differential)
IN (single–ended)
tskew
Within–Device Skew
Part–to–Part Skew (Diff)
35
100
35
100
35
100
35
100
ps
fmax
Maximum Input Frequency
1.5
1.5
1.5
1.5
GHz
VPP
Minimum Input Swing
VCMR
Common Mode Range
tr/tf
Output Rise/Fall Time
TIMING SOLUTIONS
BR1333 — Rev 6
Condition
ps
400
400
500
500
500
500
mV
V
200
200
200
3
200
ps
20%–80%
MOTOROLA
MC100EP111
OUTLINE DIMENSIONS
A
–T–, –U–, –Z–
FA SUFFIX
PLASTIC TQFP PACKAGE
CASE 873A–02
ISSUE A
4X
A1
32
0.20 (0.008) AB T–U Z
25
1
–U–
–T–
B
V
AE
P
B1
DETAIL Y
17
8
V1
AE
DETAIL Y
9
4X
–Z–
9
0.20 (0.008) AC T–U Z
S1
S
DETAIL AD
G
–AB–
0.10 (0.004) AC
AC T–U Z
–AC–
BASE
METAL
ÉÉ
ÉÉ
ÉÉ
ÉÉ
F
8X
M_
R
J
D
SECTION AE–AE
W
K
X
DETAIL AD
Q_
GAUGE PLANE
H
0.250 (0.010)
C E
MOTOROLA
M
N
0.20 (0.008)
SEATING
PLANE
4
NOTES:
1. DIMENSIONING AND TOLERANCING PER ANSI
Y14.5M, 1982.
2. CONTROLLING DIMENSION: MILLIMETER.
3. DATUM PLANE –AB– IS LOCATED AT BOTTOM OF
LEAD AND IS COINCIDENT WITH THE LEAD
WHERE THE LEAD EXITS THE PLASTIC BODY AT
THE BOTTOM OF THE PARTING LINE.
4. DATUMS –T–, –U–, AND –Z– TO BE DETERMINED
AT DATUM PLANE –AB–.
5. DIMENSIONS S AND V TO BE DETERMINED AT
SEATING PLANE –AC–.
6. DIMENSIONS A AND B DO NOT INCLUDE MOLD
PROTRUSION. ALLOWABLE PROTRUSION IS
0.250 (0.010) PER SIDE. DIMENSIONS A AND B
DO INCLUDE MOLD MISMATCH AND ARE
DETERMINED AT DATUM PLANE –AB–.
7. DIMENSION D DOES NOT INCLUDE DAMBAR
PROTRUSION. DAMBAR PROTRUSION SHALL
NOT CAUSE THE D DIMENSION TO EXCEED
0.520 (0.020).
8. MINIMUM SOLDER PLATE THICKNESS SHALL BE
0.0076 (0.0003).
9. EXACT SHAPE OF EACH CORNER MAY VARY
FROM DEPICTION.
DIM
A
A1
B
B1
C
D
E
F
G
H
J
K
M
N
P
Q
R
S
S1
V
V1
W
X
MILLIMETERS
MIN
MAX
7.000 BSC
3.500 BSC
7.000 BSC
3.500 BSC
1.400
1.600
0.300
0.450
1.350
1.450
0.300
0.400
0.800 BSC
0.050
0.150
0.090
0.200
0.500
0.700
12_ REF
0.090
0.160
0.400 BSC
1_
5_
0.150
0.250
9.000 BSC
4.500 BSC
9.000 BSC
4.500 BSC
0.200 REF
1.000 REF
INCHES
MIN
MAX
0.276 BSC
0.138 BSC
0.276 BSC
0.138 BSC
0.055
0.063
0.012
0.018
0.053
0.057
0.012
0.016
0.031 BSC
0.002
0.006
0.004
0.008
0.020
0.028
12_ REF
0.004
0.006
0.016 BSC
1_
5_
0.006
0.010
0.354 BSC
0.177 BSC
0.354 BSC
0.177 BSC
0.008 REF
0.039 REF
TIMING SOLUTIONS
BR1333 — Rev 6
MC100EP111
Motorola reserves the right to make changes without further notice to any products herein. Motorola makes no warranty, representation or guarantee regarding
the suitability of its products for any particular purpose, nor does Motorola assume any liability arising out of the application or use of any product or circuit, and
specifically disclaims any and all liability, including without limitation consequential or incidental damages. “Typical” parameters which may be provided in Motorola
data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals”
must be validated for each customer application by customer’s technical experts. Motorola does not convey any license under its patent rights nor the rights of
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arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that
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are registered trademarks of Motorola, Inc. Motorola, Inc. is an Equal
Opportunity/Affirmative Action Employer.
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TIMING SOLUTIONS
BR1333 — Rev 6
◊
5
*MC100EP111/D*
MC100EP111/D
MOTOROLA