MOTOROLA MC10EP16D

MOTOROLA
SEMICONDUCTOR TECHNICAL DATA
MC10EP16
Differential Receiver
The MC10EP16 is a differential receiver. The device is functionally
equivalent to the EL16 device with higher performance capabilities. With
output transition times significantly faster than the EL16 the EP16 is
ideally suited for interfacing with high frequency sources.
The EP16 provides a VBB output for either single-ended use or as a DC
bias for AC coupling to the device. The VBB pin should be used only as a
bias for the EP16 as its current sink/source capability is limited.
Whenever used, the VBB pin should be bypassed to ground via a 0.01µf
capacitor.
Under open input conditions (pulled to VEE) internal input clamps will
force the Q output LOW.
•
•
•
•
•
•
•
D SUFFIX
8–LEAD PLASTIC SOIC PACKAGE
CASE 751-06
160ps Propagation Delay
High Bandwidth Output Transitions
75kΩ Internal Input Pulldown Resistors
PIN DESCRIPTION
>1000V ESD Protection
Maximum Frequency > 2.7GHz
VBB Sink/Source Current = 0.5mA maximum
Component Count = 22 NPN devices
NOTE: Inputs have 75kΩ to VEE on D input and 75kΩ to VEE and VCC on D input
and when left open, force outputs to known state Q=Low, Q=High. Solder
temp 265°C for maximum for < 2–3 seconds; 245°C desired.
NC 1
PIN
FUNCTION
D, D
Q, Q
VBB
Data Inputs
Data Outputs
Ref. Voltage Output
8
VCC
7
Q
6
Q
5
VEE
75k
D
2
75k
D
3
75k
VBB
4
Figure 1. 8–Lead Pinout (Top View) and Logic Diagram
This document contains information on a product under development. Motorola reserves the right to change or
discontinue this product without notice.
3/98
 Motorola, Inc. 1998
1
REV 0
MC10EP16
MAXIMUM RATINGS*
Symbol
Parameter
Value
Unit
VEE
Power Supply (VCC = 0V)
–8.0 to +0
VDC
VI
Input Voltage (VCC = 0V)
0 to +–6.0
VDC
Iout
Output Current
50
100
mA
TA
Operating Temperature Range
–40 to +85
°C
VEE
Operating Range
–5.5 to 3.0
V
θJA
Thermal Resistance (Junction–to–Ambient)
190
130
°C/W
θJC
Thermal Resistance (Junction–to–Case)
41 to 44 (±5%)
°C/W
Continuous
Surge
Still Air
500lfpm
* Maximum Ratings are those values beyond which damage to the device may occur. Functional operation should be restricted to the
Recommended Operating Conditions.
DC CHARACTERISTICS (VEE = VEE(min) to VEE(max); VCC = GND; Note 1.)
–40°C
Symbol
Characteristic
Min
Typ
0°C
Max
Min
25°C
Typ
Max
Min
Typ
85°C
Max
Min
Typ
Max
Unit
VOH
Output HIGH Voltage
–1080
–890
–1020
–840
–980
–810
–910
–720
mV
VOL
Output LOW Voltage
–1950
–1650
–1950
–1630
–1950
–1630
–1950
–1595
mV
VIH
Input HIGH Voltage
–1230
–890
–1170
–840
–1130
–810
–1060
–720
mV
VIL
Input LOW Voltage
–1950
–1500
–1950
–1480
–1950
–1480
–1950
–1445
mV
VEE
Power Supply Voltage
–5.5
–3.0
–5.5
–3.0
–5.5
–3.0
–5.5
–3.0
Volts
VBB
Reference Voltage
IIH
Input HIGH Current
IIL
Input LOW Current
IEE
VEE Supply Current
mV
150
D
D
0.5
–600
150
150
0.5
–600
23
29
0.5
–600
23
29
150
23
29
µA
µA
µA
0.5
–600
23
29
mA
1. 10EL circuits are designed to meet the DC specifications shown in the table after thermal equilibrium has been established. The circuit is in
a test socket or mounted on a printed circuit board and transverse airflow greater than 500lfpm is maintained. Outputs are terminated through
a 50Ω resistor to VCC –2.0V except where otherwise specified on the individual data sheets.
AC CHARACTERISTICS (VEE = VEE(min) to VEE(max); VCC = GND)
–40°C
Symbol
Characteristic
Min
Typ
Max
Min
Typ
25°C
Max
2.7
Min
Typ
85°C
Max
2.7
Min
Typ
Max
Maximum Frequency (Note 2.)
tPLH,
tPHL
Propagation Delay to Output
Diff.
tSKEW
Duty Cycle Skew (Note 3.)
Diff.
VPP
Minimum Input Swing (Note 4.)
150
150
150
150
mV
VCMR
Common Mode Range (Note 5.)
–0.4
–0.4
–0.4
–0.4
V
tr
tf
Output Rise/Fall Times Q
(20% – 80%)
160
160
5.0
5.0
110
110
2.7
Unit
fmax
2.
3.
4.
5.
2.7
0°C
160
20
5.0
110
GHz
160
20
5.0
110
ps
20
ps
ps
Minimum fmax specified to 2.7GHz with reduced output swing. See Figure 2 on page 3.
Duty cycle skew is the difference between a TPLH and TPHL propagation delay through a device.
Minimum input swing for which AC parameters guaranteed. The device has a DC gain of ≈40.
The CMR range is referenced to the most positive side of the differential input signal. Normal operation is obtained if the HIGH level falls within
the specified range and the peak-to-peak voltage lies between VPPmin and 1V. The lower end of the CMR range is dependent on VEE and is
equal to VEE + 2.5V.
MOTOROLA
2
ECLinPS and ECLinPS Lite
DL140 — Rev 3
MC10EP16
PECL CHARACTERISTICS (Note 6.)
–40°C
Symbol
Characteristic
Min
Typ
0°C
Max
Min
3.0
5.5
Typ
25°C
Max
Min
3.0
5.5
Typ
85°C
Max
Min
3.0
5.5
Typ
Max
Unit
3.0
5.5
V
VCC
Power Supply Voltage
VBB
Reference Voltage
VOH
Output HIGH Voltage
3920
4110
3980
4160
4020
4190
4090
4280
mV
VOL
Output LOW Voltage
3050
3350
3050
3370
3050
3370
3050
3405
mV
VIH
Input HIGH Voltage
3770
4110
3830
4160
3870
4190
3940
4280
mV
VIL
Input LOW Voltage
3050
3500
3050
3520
3050
3520
3050
3555
mV
IIH
Input HIGH Current
IIL
Input LOW Current
IEE
VEE Supply Current
150
D
D
0.5
–600
150
0.5
–600
23
29
0.5
–600
23
29
µA
150
µA
0.5
–600
23
29
23
Max
Min
29
mA
Max
Unit
6. Input and output level parameters are for VCC=5.0V and levels will vary 1:1 with VCC.
LVPECL CHARACTERISTICS (Note 7.)
–40°C
Symbol
Characteristic
Min
Typ
0°C
Max
Min
3.0
5.5
Typ
25°C
Typ
85°C
Max
Min
Typ
3.0
5.5
3.0
5.5
3.0
5.5
V
VCC
Power Supply Voltage
VBB
Reference Voltage
VOH
Output HIGH Voltage
2220
2410
2280
2460
2320
2490
2390
2580
mV
VOL
Output LOW Voltage
1350
1650
1350
1670
1350
1670
1650
1705
mV
VIH
Input HIGH Voltage
2070
2410
2130
2460
2170
2490
2240
2580
mV
VIL
Input LOW Voltage
1350
1800
1350
1820
1350
1820
1350
1855
mV
IIH
Input HIGH Current
150
µA
IIL
Input LOW Current
IEE
VEE Supply Current
150
D
D
0.5
–600
23
150
0.5
–600
29
150
0.5
–600
23
29
23
µA
0.5
–600
29
23
29
mA
7. Input and output level parameters are for VCC=3.3V and levels will vary 1:1 with VCC.
900
800
PP (mV)
700
600
500
400
300
0.5
1.0
1.5
2.0
2.5
3.0
3.5
Frequency (GHz)
Figure 2. Frequency vs. Peak–to–Peak Jitter
ECLinPS and ECLinPS Lite
DL140 — Rev 3
3
MOTOROLA
MC10EP16
OUTLINE DIMENSIONS
D SUFFIX
PLASTIC SOIC PACKAGE
CASE 751–06
ISSUE T
D
A
8
NOTES:
1. DIMENSIONING AND TOLERANCING PER ASME
Y14.5M, 1994.
2. DIMENSIONS ARE IN MILLIMETER.
3. DIMENSION D AND E DO NOT INCLUDE MOLD
PROTRUSION.
4. MAXIMUM MOLD PROTRUSION 0.15 PER SIDE.
5. DIMENSION B DOES NOT INCLUDE DAMBAR
PROTRUSION. ALLOWABLE DAMBAR
PROTRUSION SHALL BE 0.127 TOTAL IN EXCESS
OF THE B DIMENSION AT MAXIMUM MATERIAL
CONDITION.
C
5
0.25
H
E
M
B
M
1
4
h
B
e
X 45 _
q
A
C
SEATING
PLANE
L
0.10
A1
B
0.25
M
C B
S
A
S
DIM
A
A1
B
C
D
E
e
H
h
L
q
MILLIMETERS
MIN
MAX
1.35
1.75
0.10
0.25
0.35
0.49
0.19
0.25
4.80
5.00
3.80
4.00
1.27 BSC
5.80
6.20
0.25
0.50
0.40
1.25
0_
7_
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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”
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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
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◊
MOTOROLA
4
MC10EP16/D
ECLinPS and ECLinPS Lite
DL140 — Rev 3