100EL16M8 [FAIRCHILD]
5V ECL Differential Receiver; 5V ECL差分接收器![100EL16M8](http://pdffile.icpdf.com/pdf1/p00054/img/icpdf/100EL16_283467_icpdf.jpg)
型号: | 100EL16M8 |
厂家: | ![]() |
描述: | 5V ECL Differential Receiver |
文件: | 总5页 (文件大小:141K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
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January 2003
Revised January 2003
100EL16
5V ECL Differential Receiver
General Description
The 100EL16 is a 5V differential receiver that contains an
Features
■ Typical propagation delay of 250 ps
internally supply voltage source, VBB. When used in a sin-
■ Typical IEE of 18 mA
gle ended input condition the unused input must be tied to
■ Internal pull-down resistors on inputs
VBB. When operating in this mode use a 0.01 µF capacitor
■ Fairchild MSOP-8 package is a drop-in replacement to
ON TSSOP-8
to decouple VBB and VCC and also limit the current sinking
or sourcing capability to 0.5mA. When VBB is not used it
should be left open.
■ Meets or exceeds JEDEC specification EIA/JESD78 IC
latch-up test
With inputs open or both inputs at VEE the differential Q
output defaults LOW.
■ Moisture Sensitivity Level 1
■ ESD Performance:
The 100 series is temperature compensated.
Human Body Model > 2000V
Machine Model > 200V
Ordering Code:
Package Product
Order Number
Number
Code
Package Description
Top Mark
100EL16M
M08A
KEL16 8-Lead Small Outline Integrated Circuit (SOIC), JEDEC MS-012, 0.150" Narrow
KL16 8-Lead Molded Small Outline Package (MSOP), JEDEC MO-187, 3.0mm Wide
100EL16M8
(Preliminary)
MA08D
Devices also available in Tape and Reel. Specify by appending suffix letter “X” to the ordering code.
Connection Diagram
Logic Diagram
Top View
Pin Descriptions
Pin Name
Description
Q, Q
ECL Data Outputs
D, D
VBB
VCC
VEE
NC
ECL Data Inputs
Reference Voltage
Positive Supply
Negative Supply
No Connect
© 2003 Fairchild Semiconductor Corporation
DS500770
www.fairchildsemi.com
Absolute Maximum Ratings(Note 1)
Recommended Operating
Conditions
PECL Supply Voltage (VCC
)
V
EE = 0V
NECL Supply Voltage (VEE
CC = 0V
PECL DC Input Voltage (VI)
EE = 0V
NECL DC Input Voltage (VI)
CC = 0V
0.0V to +8.0V
0.0V to −8.0V
0.0V to +6.0V
0.0V to −6.0V
PECL Power Supply
)
(VEE = 0V)
VCC = 4.2V to 5.5V
V
NECL Power Supply
(VCC = 0V)
V
EE = −4.2V to −5.5V
−40°C to +85°C
V
Free Air Operating Temperature (TA)
V
DC Output Current (IOUT
)
Continuous
50 mA
100 mA
Note 1: The “Absolute Maximum Ratings” are those values beyond which
the safety of the device cannot be guaranteed. The device should not be
operated at these limits. The parametric values defined in the Electrical
Characteristics tables are not guaranteed at the absolute maximum rating.
The “Recommended Operating Conditions” table will define the conditions
for actual device operation.
Surge
V
BB Sink/Source Current (IBB
)
±0.5 mA
Storage Temperature (TSTG
)
−65°C to +150°C
100EL PECL DC Electrical Characteristics VCC = 5.0V; VEE = 0.0V (Note 2)
−40°C
Typ
25°C
Typ
85°C
Typ
Symbol
Parameter
Units
Min
Max
22
Min
Max
22
Min
Max
26
IEE
Power Supply Current
18
18
21
mA
mV
mV
mV
mV
V
VOH
VOL
VIH
Output HIGH Voltage (Note 3)
Output LOW Voltage (Note 3)
Input HIGH Voltage (Single Ended)
Input LOW Voltage (Single Ended)
Output Voltage Reference
3915
3170
3835
3190
3.62
3995
3305
4120
3445
4120
3525
3.74
3975
3190
3835
3190
3.62
4045
3295
4120
3380
4120
3525
3.74
3975
3190
3835
3190
3.62
4050
3295
4120
3380
4120
3525
3.74
VIL
VBB
VIHCMR
Input HIGH Voltage Common Mode
Range (Differential) (Note 4)
Input HIGH Current (Note 5)
Input LOW Current (Note 5)
2.5
4.6
2.5
4.6
2.5
4.6
V
IIH
IIL
150
150
150
µA
µA
0.5
0.5
0.5
Note 2: Input and output parameters vary 1 to 1 with VCC. VEE can vary +0.8V/−0.5V.
Note 3: Outputs are terminated through a 50Ω Resistor to VCC − 2.0V.
Note 4: VIHCMR minimum varies 1 to 1 with VEE. VIHCMR maximum varies 1-to-1 with VCC. The VIHCMR 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.
Note 5: Absolute value of the input HIGH and LOW current should not exceed the absolute value of the stated Min or Max specification.
Note: Devices are designed to meet the DC specifications after thermal equilibrium has been established. Circuit is tested with air flow greater than
500LFPM maintained.
100EL NECL DC Electrical Characteristics VCC = 0.0V; VEE = −5.0V (Note 6)
−40°C
Typ
25°C
Typ
85°C
Typ
Symbol
Parameter
Units
Min
Max
22
Min
Max
22
Min
Max
26
IEE
Power Supply Current
18
18
21
mA
mV
mV
mV
mV
V
VOH
VOL
VIH
Output HIGH Voltage (Note 7)
Output LOW Voltage (Note 7)
Input HIGH Voltage (Single Ended)
Input LOW Voltage (Single Ended)
Output Voltage Reference
−1085
−1830
−1165
−1810
−1.38
−1005
−1695
−880
−1555
−880
−1475
−1.26
−1025
−1810
−1165
−1810
−1.38
−955
−1705
−880
−1620
−880
−1475
−1.26
−1025
−1810
−1165
−1810
−1.38
−955
−1705
−880
−1620
−880
-1475
−1.26
VIL
VBB
VIHCMR
Input HIGH Voltage Common Mode
Range (Differential) (Note 8)
Input HIGH Current (Note 9)
Input LOW Current (Note 9)
−2.5
−0.4
−2.5
−0.4
−2.5
−0.4
V
IIH
IIL
150
150
150
µA
µA
0.5
0.5
0.5
Note 6: Input and output parameters vary 1 to 1 with VCC. VEE can vary +0.8V/−0.5V.
Note 7: Outputs are terminated through a 50Ω Resistor to VCC − 2.0V.
Note 8: VIHCMR minimum varies 1 to 1 with VEE. VIHCMR maximum varies 1 to 1 with VCC. The VIHCMR range is referenced to the most positive side of the dif-
ferential 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.
Note 9: Absolute value of the input HIGH and LOW current should not exceed the absolute value of the stated Min or Max specification.
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2
Note: Devices are designed to meet the DC specifications after thermal equilibrium has been established. Circuit is tested with air flow greater than
500LFPM maintained.
100EL AC Electrical Characteristics VCC = 5V; VEE = 0.0V or VCC = 0.0V; VEE = −5V
(Note 10)(Note 11)
−40°C
Typ
TBD
250
250
5
25°C
Typ
TBD
250
250
5
85°C
Typ
TBD
280
280
5
Figure
Symbol
Parameter
Units
GHz
ps
Min
Max
Min
Max
Min
Max
Number
fMAX
Maximum Toggle Frequency
t
PLH, tPHL Propagation Delay to Output (Diff)
(SE)
125
75
375
425
20
175
125
325
375
20
205
155
355
405
20
Figures
1, 3
tSKEW
tJITTER
VPP
Duty Cycle Skew (Note 12)
Cycle-to-Cycle Jitter
Input Swing
ps
ps
TBD
TBD
TBD
150
100
1000
350
150
100
1000
350
150
100
1000
350
mV Figure 1
ps Figure 2
tr, tf
Output Rise Times Q (20% to 80%)
190
190
190
Note 10: VEE can vary +0.8V / −0.5V.
Note 11: Measured using a 750 mV input swing centered at VCC − 1.32V; 50% duty cycle clock source; tr = tf = 250 ps (20% - 80%) at fIN = 1 MHz.
All loading with 50Ω to VCC − 2.0V.
Note 12: Duty cycle skew is the difference between a tPLH and tPHL propagation delay through a device under identical conditions.
Switching Waveforms
FIGURE 1. Differential to Differential Propagation Delay
FIGURE 2. Differential Output Edge Rates
FIGURE 3. Single Ended to Differential Propagation Delay
3
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Physical Dimensions inches (millimeters) unless otherwise noted
8-Lead Small Outline Integrated Circuit (SOIC), JEDEC MS-012, 0.150" Narrow
Package Number M08A
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4
Physical Dimensions inches (millimeters) unless otherwise noted (Continued)
8-Lead Molded Small Outline Package (MSOP), JEDEC MO-187, 3.0mm Wide
Package Number MA08D
Fairchild does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and
Fairchild reserves the right at any time without notice to change said circuitry and specifications.
LIFE SUPPORT POLICY
FAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT
DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF FAIRCHILD
SEMICONDUCTOR CORPORATION. As used herein:
1. Life support devices or systems are devices or systems
which, (a) are intended for surgical implant into the
body, or (b) support or sustain life, and (c) whose failure
to perform when properly used in accordance with
instructions for use provided in the labeling, can be rea-
sonably expected to result in a significant injury to the
user.
2. A critical component in any component of a life support
device or system whose failure to perform can be rea-
sonably expected to cause the failure of the life support
device or system, or to affect its safety or effectiveness.
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5
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