ON MC10EP90DT −3.3v / −5v triple ecl input to lvpecl/pecl output translator Datasheet

MC10EP90, MC100EP90
−3.3V / −5VTriple ECL Input
to LVPECL/PECL Output
Translator
Description
The MC10/100EP90 is a TRIPLE ECL TO LVPECL/PECL
translator. The device receives differential LVECL or ECL signals and
translates them to differential LVPECL or PECL output signals.
A VBB output is provided for interfacing with Single−Ended LVECL
or ECL signals at the input. If a Single−Ended input is to be used the
VBB output should be connected to the D input. The active signal would
then drive the D input. When used the VBB output should be bypassed
to ground by a 0.01 mF capacitor. The VBB output is designed to act as
the switching reference for the EP90 under Single−Ended input
switching conditions, as a result this pin can only source/sink up to
0.5 mA of current.
To accomplish the level translation the EP90 requires three power
rails. The VCC supply should be connected to the positive supply, and
the VEE connected to the negative supply.
The 100 Series contains temperature compensation.
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TSSOP−20
DT SUFFIX
CASE 948E
MARKING DIAGRAM*
20
xxxx
EP90
ALYWG
G
Features
• 260 ps Typical Propagation Delay
• Maximum Frequency > 3 GHz Typical
• Voltage Supplies VCC = 3.0 V to 5.5 V, VEE = −3.0 V to −5.5 V,
•
•
•
•
•
•
GND = 0 V
Open Input Default State
Safety Clamp on Inputs
Fully Differential Design
Q Output Will Default LOW with Inputs Open or at VEE
VBB Output
These are Pb−Free Devices*
1
xxxx
= MC10 or 100
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.
ORDERING INFORMATION
See detailed ordering and shipping information in the package
dimensions section on page 7 of this data sheet.
*For additional information on our Pb−Free strategy and soldering details, please
download the ON Semiconductor Soldering and Mounting Techniques
Reference Manual, SOLDERRM/D.
© Semiconductor Components Industries, LLC, 2006
November, 2006 − Rev. 6
1
Publication Order Number:
MC10EP90/D
MC10EP90, MC100EP90
VCC
Q0
Q0
GND
Q1
Q1
GND
Q2
Q2
VCC
20
19
18
17
16
15
14
13
12
11
Table 1. PIN DESCRIPTION
PIN
FUNCTION
Q(0:2), Q(0:2)
Differential LVPECL or PECL Outputs
D(0:2)*, D(0:2)* Differential LVECL or ECL Inputs
LVPECL/
PECL
LVPECL/
PECL
ECL
LVPECL/
PECL
ECL
ECL
VCC
Positive Supply
GND
Ground
VEE
Negative Supply
VBB
Output Reference Supply
* Pins will default LOW when left open.
Table 2. FUNCTION TABLE
1
2
3
4
5
6
7
8
9
10
VCC
D0
D0
VBB
D1
D1
VBB
D2
D2
VEE
Warning: All VCC, VEE and GND pins must be externally connected to
Power Supply to guarantee proper operation.
Figure 1. TSSOP−20 (Top View) and Logic Diagram
Function
VCC
5V
0V
−5 V
−5V ECL to 3.3V PECL
3.3 V
0V
−5 V
−3.3V ECL to 5V PECL
5V
0V
−3.3 V
−3.3V ECL to 3.3V PECL
3.3 V
0V
−3.3 V
Characteristics
Value
Internal Input Pulldown Resistor
75 kW
Internal Input Pullup Resistor
N/A
Human Body Model
Machine Model
Charged Device Model
Moisture Sensitivity, Indefinite Time Out of Drypack (Note 1)
TSSOP−20
Flammability Rating
Oxygen Index: 28 to 34
Transistor Count
> 2 kV
> 200 V
> 2 kV
Pb Pkg
Pb−Free Pkg
Level 1
Level 1
UL 94 V−0 @ 0.125 in
350 Devices
Meets or exceeds JEDEC Spec EIA/JESD78 IC Latchup Test
1. For additional information, refer to Application Note AND8003/D.
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2
VEE
−5V ECL to 5V PECL
Table 3. ATTRIBUTES
ESD Protection
GND
MC10EP90, MC100EP90
Table 4. MAXIMUM RATINGS
Rating
Unit
VCC
Symbol
PECL Mode Power Supply
Parameter
GND = 0 V
Condition 1
6
V
VEE
NECL Mode Power Supply
GND = 0 V
−6
V
VI
PECL Mode Input Voltage
NECL Mode Input Voltage
GND = 0 V
GND = 0 V
6
−6
V
V
Iout
Output Current
Continuous
Surge
50
100
mA
mA
IBB
VBB Sink/Source
± 0.5
mA
TA
Operating Temperature Range
−40 to +85
°C
Tstg
Storage Temperature Range
−65 to +150
°C
qJA
Thermal Resistance (Junction−to−Ambient)
0 lfpm
500 lfpm
TSSOP−20
TSSOP−20
140
100
°C/W
°C/W
qJC
Thermal Resistance (Junction−to−Case)
Standard Board
TSSOP−20
23 to 41
°C/W
Tsol
Wave Solder
<2 to 3 sec @ 248°C
<2 to 3 sec @ 260°C
265
265
°C
Pb
Pb−Free
Condition 2
VI VCC
VI VEE
Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the
Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect
device reliability.
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3
MC10EP90, MC100EP90
Table 5. 10EP DC CHARACTERISTICS VCC = 3.3 V, VEE = −5.5 V to −3.0 V; GND = 0 V (Note 2)
−40°C
Symbol
Characteristic
25°C
85°C
Min
Typ
Max
Min
Typ
Max
Min
Typ
Max
Unit
IEE
Negative Power Supply Current
5
13
20
5
13
20
5
13
20
mA
ICC
Positive Power Supply Current
43
55
67
43
55
67
43
55
67
mA
VOH
Output HIGH Voltage (Note 3)
2165
2290
2415
2230
2355
2480
2290
2415
2540
mV
VOL
Output LOW Voltage (Note 3)
1365
1490
1615
1430
1555
1680
1490
1615
1740
mV
VIH
Input HIGH Voltage (Single−Ended)
−1210
−885
−1145
−820
−1085
−760
mV
VIL
Input LOW Voltage (Single−Ended)
−1935
−1610
−1870
−1545
−1810
−1485
mV
VBB
Output Voltage Reference
−1510
−1310
−1445
−1245
−1385
−1185
mV
VIHCMR
Input HIGH Voltage Common Mode
Range (Differential Configuration)
(Note 4)
0.0
V
IIH
Input HIGH Current
150
mA
IIL
Input LOW Current
−1410
VEE+2.0
0.0
−1345
VEE+2.0
150
0.0
−1285
VEE+2.0
150
0.5
0.5
0.5
mA
NOTE: Device will meet the specifications after thermal equilibrium has been established when mounted in a test socket or printed circuit
board with maintained transverse airflow greater than 500 lfpm. Electrical parameters are guaranteed only over the declared
operating temperature range. Functional operation of the device exceeding these conditions is not implied. Device specification limit
values are applied individually under normal operating conditions and not valid simultaneously.
2. Input and output parameters vary 1:1 with VCC.
3. All loading with 50 W to VCC − 2.0 V.
4. VIHCMR min varies 1:1 with VEE, max varies 1:1 with VCC. The VIHCMR range is referenced to the most positive side of the differential input
signal.
Table 6. 10EP DC CHARACTERISTICS VCC = 5.0 V, VEE = −5.5 V to −3.0 V; GND = 0 V (Note 5)
−40°C
Symbol
Characteristic
25°C
Min
Typ
Max
85°C
Min
Typ
Max
Min
Typ
Max
Unit
IEE
Negative Power Supply Current
5
13
20
5
13
20
5
13
20
mA
ICC
Positive Power Supply Current
43
55
67
43
55
67
43
55
67
mA
VOH
Output HIGH Voltage (Note 6)
3865
3990
4115
3930
4055
4180
3990
4115
4240
mV
VOL
Output LOW Voltage (Note 6)
3065
3190
3315
3130
3255
3380
3190
3315
3440
mV
VIH
Input HIGH Voltage (Single−Ended)
−1210
−885
−1145
−820
−1085
−760
mV
VIL
Input LOW Voltage (Single−Ended)
−1935
−1610
−1870
−1545
−1810
−1485
mV
VBB
Output Voltage Reference
−1510
−1310
−1445
−1245
−1385
−1185
mV
VIHCMR
Input HIGH Voltage Common Mode
Range (Differential Configuration)
(Note 7)
0.0
V
IIH
Input HIGH Current
150
mA
IIL
Input LOW Current
−1410
VEE+2.0
0.0
150
0.5
−1345
VEE+2.0
0.0
150
0.5
−1285
VEE+2.0
0.5
mA
NOTE: Device will meet the specifications after thermal equilibrium has been established when mounted in a test socket or printed circuit
board with maintained transverse airflow greater than 500 lfpm. Electrical parameters are guaranteed only over the declared
operating temperature range. Functional operation of the device exceeding these conditions is not implied. Device specification limit
values are applied individually under normal operating conditions and not valid simultaneously.
5. Input and output parameters vary 1:1 with VCC.
6. All loading with 50 W to VCC − 2.0 V.
7. VIHCMR min varies 1:1 with VEE, max varies 1:1 with VCC. The VIHCMR range is referenced to the most positive side of the differential input
signal.
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4
MC10EP90, MC100EP90
Table 7. 100EP DC CHARACTERISTICS VCC = 3.3 V, VEE = −5.5 V to −3.0 V; GND = 0 V (Note 8)
−40°C
25°C
85°C
Min
Typ
Max
Min
Typ
Max
Min
Typ
Max
Unit
IEE
Negative Power Supply Current
5
13
20
5
13
20
5
13
20
mA
ICC
Positive Power Supply Current
45
58
70
50
62
75
53
65
78
mA
VOH
Output HIGH Voltage (Note 9)
2155
2280
2405
2155
2280
2405
2155
2280
2405
mV
VOL
Output LOW Voltage (Note 9)
1355
1480
1605
1355
1480
1605
1355
1480
1605
mV
VIH
Input HIGH Voltage (Single−Ended)
−1225
−885
−1225
−885
−1225
−885
mV
VIL
Input LOW Voltage (Single−Ended)
−1945
−1625
−1945
−1625
−1945
−1625
mV
VBB
Output Voltage Reference
−1525
−1325
−1525
−1325
−1525
−1325
mV
VIHCMR
Input HIGH Voltage Common Mode
Range (Differential Configuration)
(Note 10)
0.0
V
IIH
Input HIGH Current
150
mA
IIL
Input LOW Current
Symbol
Characteristic
−1425
VEE+2.0
0.0
−1425
VEE+2.0
150
0.0
−1425
VEE+2.0
150
0.5
0.5
0.5
mA
NOTE: Device will meet the specifications after thermal equilibrium has been established when mounted in a test socket or printed circuit
board with maintained transverse airflow greater than 500 lfpm. Electrical parameters are guaranteed only over the declared
operating temperature range. Functional operation of the device exceeding these conditions is not implied. Device specification limit
values are applied individually under normal operating conditions and not valid simultaneously.
8. Input and output parameters vary 1:1 with VCC.
9. All loading with 50 W to VCC − 2.0 V.
10. VIHCMR min varies 1:1 with VEE, max varies 1:1 with VCC. The VIHCMR range is referenced to the most positive side of the differential input
signal.
Table 8. 100EP DC CHARACTERISTICS VCC = 5.0 V, VEE = −5.5 V to −3.0 V; GND = 0 V (Note 11)
−40°C
Symbol
Characteristic
25°C
85°C
Min
Typ
Max
Min
Typ
Max
Min
Typ
Max
Unit
IEE
Negative Power Supply Current
5
13
20
5
13
20
5
13
20
mA
ICC
Positive Power Supply Current
45
58
70
50
62
75
53
65
78
mA
VOH
Output HIGH Voltage (Note 12)
3855
3980
4105
3855
3980
4105
3855
3980
4105
mV
VOL
Output LOW Voltage (Note 12)
3055
3180
3305
3055
3180
3305
3055
3180
3305
mV
VIH
Input HIGH Voltage (Single−Ended)
−1225
−885
−1225
−885
−1225
−885
mV
VIL
Input LOW Voltage (Single−Ended)
−1945
−1625
−1945
−1625
−1945
−1625
mV
VBB
Output Voltage Reference
−1525
−1325
−1525
−1325
−1525
−1325
mV
VIHCMR
Input HIGH Voltage Common Mode
Range (Differential Configuration)
(Note 13)
0.0
V
IIH
Input HIGH Current
150
mA
IIL
Input LOW Current
−1425
VEE+2.0
0.0
VEE+2.0
150
0.5
−1425
0.0
VEE+2.0
150
0.5
−1425
0.5
mA
NOTE: Device will meet the specifications after thermal equilibrium has been established when mounted in a test socket or printed circuit
board with maintained transverse airflow greater than 500 lfpm. Electrical parameters are guaranteed only over the declared
operating temperature range. Functional operation of the device exceeding these conditions is not implied. Device specification limit
values are applied individually under normal operating conditions and not valid simultaneously.
11. Input and output parameters vary 1:1 with VCC.
12. All loading with 50 W to VCC − 2.0 V.
13. VIHCMR min varies 1:1 with VEE, max varies 1:1 with VCC.. The VIHCMR range is referenced to the most positive side of the differential input
signal.
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MC10EP90, MC100EP90
Table 9. AC CHARACTERISTICS VEE = −3.0 V to −5.5 V; VCC = 3.0 V to 5.5 V; GND = 0 V (Note 14)
−40°C
Symbol
Min
Characteristic
fmax
Maximum Frequency
(See Figure 2 Fmax/JITTER)
tPLH,
tPHL
Propagation Delay to
Output Differential
tSKEW
Duty Cycle Skew (Note 15)
Typ
25°C
Max
Min
>3
170
tJITTER
Cycle−to−Cycle Jitter
(See Figure 2 Fmax/JITTER)
VPP
Input Voltage
Swing (Differential Configuration)
tr
tf
Output Rise/Fall Times
(20% − 80%)
310
5.0
20
200
Min
Typ
0.2
<1
150
800
1200
70
120
170
Max
>3
260
340
5.0
20
80
140
Q, Q
85°C
Max
>3
240
Within Device Skew
Q, Q
Device to Device Skew (Note 15)
Typ
230
300
370
ps
5.0
20
ps
80
140
0.2
<1
150
800
1200
80
130
180
Unit
GHz
80
140
0.2
<1
ps
150
800
1200
mV
100
150
230
ps
900
9
800
8
700
7
600
6
500
5
400
4
300
3
200
2
ÉÉÉÉÉÉÉÉÉÉÉ
ÉÉÉÉÉÉÉÉÉÉÉ
100
0
0
1000
2000
(JITTER)
3000
FREQUENCY (MHz)
Figure 2. Fmax/Jitter
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6
4000
1
5000
JITTER OUT ps (RMS)
VOUTpp (mV)
NOTE: Device will meet the specifications after thermal equilibrium has been established when mounted in a test socket or printed circuit
board with maintained transverse airflow greater than 500 lfpm. Electrical parameters are guaranteed only over the declared
operating temperature range. Functional operation of the device exceeding these conditions is not implied. Device specification limit
values are applied individually under normal operating conditions and not valid simultaneously.
14. Measured using a 750 mV source, 50% duty cycle clock source. All loading with 50 W to VCC−2.0 V.
15. Skew is measured between outputs under identical transitions. Duty cycle skew is defined only for differential operation when the delays
are measured from the cross point of the inputs to the cross point of the outputs.
ÉÉ
ÉÉ
MC10EP90, MC100EP90
Q
Zo = 50 W
D
Receiver
Device
Driver
Device
Q
D
Zo = 50 W
50 W
50 W
VTT
VTT = VCC − 2.0 V
Figure 3. Typical Termination for Output Driver and Device Evaluation
(See Application Note AND8020/D − Termination of ECL Logic Devices.)
ORDERING INFORMATION
Package
Shipping †
MC10EP90DT
TSSOP−20*
75 Units / Rail
MC10EP90DTG
TSSOP−20*
75 Units / Rail
MC10EP90DTR2
TSSOP−20*
2500 / Tape & Rail
MC10EP90DTR2G
TSSOP−20*
2500 / Tape & Rail
MC100EP90DT
TSSOP−20*
75 Units / Rail
MC100EP90DTG
TSSOP−20*
75 Units / Rail
MC100EP90DTR2
TSSOP−20*
2500 / Tape & Rail
MC100EP90DTR2G
TSSOP−20*
2500 / Tape & Rail
Device
†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging
Specifications Brochure, BRD8011/D.
*This package is inherently Pb−Free.
Resource Reference of Application Notes
AN1405/D
− ECL Clock Distribution Techniques
AN1406/D
− Designing with PECL (ECL at +5.0 V)
AN1503/D
− ECLinPSt I/O SPiCE Modeling Kit
AN1504/D
− Metastability and the ECLinPS Family
AN1568/D
− Interfacing Between LVDS and ECL
AN1672/D
− The ECL Translator Guide
AND8001/D
− Odd Number Counters Design
AND8002/D
− Marking and Date Codes
AND8020/D
− Termination of ECL Logic Devices
AND8066/D
− Interfacing with ECLinPS
AND8090/D
− AC Characteristics of ECL Devices
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MC10EP90, MC100EP90
PACKAGE DIMENSIONS
TSSOP−20
CASE 948E−02
ISSUE C
20X
0.15 (0.006) T U
2X
L
K REF
0.10 (0.004)
S
L/2
20
M
T U
S
V
K
K1
ÍÍÍÍ
ÍÍÍÍ
ÍÍÍÍ
S
J J1
11
B
−U−
PIN 1
IDENT
SECTION N−N
0.25 (0.010)
N
1
10
M
0.15 (0.006) T U
S
A
−V−
NOTES:
1. DIMENSIONING AND TOLERANCING PER
ANSI Y14.5M, 1982.
2. CONTROLLING DIMENSION: MILLIMETER.
3. DIMENSION A DOES NOT INCLUDE MOLD
FLASH, PROTRUSIONS OR GATE BURRS.
MOLD FLASH OR GATE BURRS SHALL NOT
EXCEED 0.15 (0.006) PER SIDE.
4. DIMENSION B DOES NOT INCLUDE
INTERLEAD FLASH OR PROTRUSION.
INTERLEAD FLASH OR PROTRUSION
SHALL NOT EXCEED 0.25 (0.010) PER SIDE.
5. DIMENSION K DOES NOT INCLUDE
DAMBAR PROTRUSION. ALLOWABLE
DAMBAR PROTRUSION SHALL BE 0.08
(0.003) TOTAL IN EXCESS OF THE K
DIMENSION AT MAXIMUM MATERIAL
CONDITION.
6. TERMINAL NUMBERS ARE SHOWN FOR
REFERENCE ONLY.
7. DIMENSION A AND B ARE TO BE
DETERMINED AT DATUM PLANE −W−.
N
F
DETAIL E
−W−
C
G
D
H
DETAIL E
0.100 (0.004)
−T− SEATING
DIM
A
B
C
D
F
G
H
J
J1
K
K1
L
M
PLANE
SOLDERING FOOTPRINT*
7.06
1
0.65
PITCH
16X
0.36
16X
1.26
DIMENSIONS: MILLIMETERS
*For additional information on our Pb−Free strategy and soldering
details, please download the ON Semiconductor Soldering and
Mounting Techniques Reference Manual, SOLDERRM/D.
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8
MILLIMETERS
MIN
MAX
6.40
6.60
4.30
4.50
−−−
1.20
0.05
0.15
0.50
0.75
0.65 BSC
0.27
0.37
0.09
0.20
0.09
0.16
0.19
0.30
0.19
0.25
6.40 BSC
0_
8_
INCHES
MIN
MAX
0.252
0.260
0.169
0.177
−−− 0.047
0.002
0.006
0.020
0.030
0.026 BSC
0.011
0.015
0.004
0.008
0.004
0.006
0.007
0.012
0.007
0.010
0.252 BSC
0_
8_
MC10EP90, MC100EP90
ECLinPS is a trademark of Semiconductor Components Industries, LLC (SCILLC).
ON Semiconductor and
are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice
to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC 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 special, consequential or incidental damages.
“Typical” parameters which may be provided in SCILLC 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. SCILLC does not convey any license under its patent rights
nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications
intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should
Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates,
and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees 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 SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal
Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.
PUBLICATION ORDERING INFORMATION
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For additional information, please contact your local
Sales Representative
MC10EP90/D
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