AZ100E116FN [AZM]
ECL/PECL Quint Differential Line Receiver; ECL / PECL昆特差动线路接收器
| 型号: | AZ100E116FN |
| 厂家: | 
ARIZONA MICROTEK, INC |
| 描述: | ECL/PECL Quint Differential Line Receiver |
| 文件: | 总5页 (文件大小:79K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
ARIZONA MICROTEK, INC.
AZ10E116
AZ100E116
ECL/PECL Quint Differential Line Receiver
FEATURES
PACKAGE AVAILABILITY
•
•
•
•
•
500ps Maximum Propagation Delay
Dedicated VCCO Pin for Each Receiver
Operating Range of 4.2V to 5.46V
75kΩ Internal Input Pulldown Resistors
Direct Replacement for ON Semiconductor
MC10E116 & MC100E116
PACKAGE
PART NUMBER
MARKING
NOTES
AZM10E116
<Date Code>
AZM100E116
<Date Code>
PLCC 28
AZ10E116FN
1,2
PLCC 28
AZ100E116FN
1,2
1
2
Add R2 at end of part number for 13 inch (2.5K parts) Tape & Reel.
Date code format: “YY” for year followed by “WW” for week.
DESCRIPTION
The AZ10/100E116 is a quint differential line receiver with emitter-follower outputs. The E116 provides a VBB
output for single-ended use or a DC bias reference for AC coupling to the device. For single-ended input
applications, the VBB reference should be connected to one side of the Dn/D¯n differential input pair. The input
signal is then fed to the other Dn/D¯n input. The VBB pin should be used only as a bias for the E116 as its sink/source
capability is limited. When used, the VBB pin should be bypassed to ground via a 0.01μF capacitor.
The receiver design features clamp circuitry to cause a defined state if both the inverting and non-inverting
inputs are left open; in this case the Q output goes LOW, while the Q¯ output goes HIGH. This feature makes the
device ideal for twisted pair applications.
If both inverting and non-inverting inputs are at an equal potential of > VCC -2.5V, the receiver does not go
to a defined state. This condition may produce output voltage levels between HIGH and LOW.
NOTE: Specifications in ECL/PECL tables are valid when thermal equilibrium is established.
1630 S. STAPLEY DR., SUITE 127 • MESA, ARIZONA 85204 • USA • (480) 962-5881 • FAX (480) 890-2541
www.azmicrotek.com
AZ10E116
AZ100E116
D3
D4
24
D4
23
V
Q4
21
Q4
20
V
CCO
CCO
22
LOGIC SYMBOL
19
18
25
D3
D2
D2
26
27
Q3
Q3
Q0
Q0
D0
D0
17
16
15
14
13
12
V
28
1
CC
Pinout: 28-lead
PLCC (top view)
Q2
V
EE
D1
D1
Q1
Q1
V
2
Q2
V
BB
D0
3
4
CCO
D0
Q1
D2
D2
Q2
Q2
5
6
7
8
9
10
11
Q1
D1
D1
V
Q0
Q0
V
CCO
CCO
D3
D3
Q3
Q3
PIN DESCRIPTION
FUNCTION
D4
D4
Q4
Q4
PIN
D0, D¯¯0 -D4, D¯¯4 Differential Input Pairs
Q0, Q¯¯0-Q4, Q¯¯4 Differential Output Pairs
V
BB
VBB
VCC , VCCO
VEE
Reference Voltage Output
Positive Supply
Negative Supply
Absolute Maximum Ratings are those values beyond which device life may be impaired.
Symbol
Characteristic
Rating
Unit
VCC
VI
VEE
VI
PECL Power Supply (VEE = 0V)
0 to +8.0
0 to +6.0
-8.0 to 0
-6.0 to 0
50
Vdc
Vdc
Vdc
Vdc
PECL Input Voltage
ECL Power Supply
ECL Input Voltage
Output Current
(VEE = 0V)
(VCC = 0V)
(VCC = 0V)
--- Continuous
--- Surge
IOUT
mA
100
TA
TSTG
Operating Temperature Range
Storage Temperature Range
-40 to +85
-65 to +150
°C
°C
10K ECL DC Characteristics (VEE = -4.94V to -5.46V, VCC = VCCO = GND)
-40°C
Typ
0°C
Typ
25°C
Typ
85°C
Typ
Symbol
Characteristic
Unit
Min
Max
-890
-1650 -1950
-890 -1170
-1500 -1950
Min
-1020
Max
-840
-1630 -1950
-840 -1130
-1480 -1950
Min
-980
Max
-810
-1630 -1950
-810 -1060
-1480 -1950
Min
-910
Max
-720
-1595
-720
-1445
-1190
150
VOH
Output HIGH Voltage1
Output LOW Voltage1
Input HIGH Voltage
Input LOW Voltage
Reference Voltage
Input HIGH Current
Input LOW Current
Power Supply Current
-1080
-1950
-1230
-1950
-1430
mV
mV
mV
mV
mV
μA
VOL
VIH
VIL
VBB
IIH
-1300 -1380
-1270 -1350
-1250 -1310
150
0.5
35
150
0.5
35
150
0.5
35
0.5
IIL
IEE
μA
mA
29
29
29
29
35
1.
Each output is terminated through a 50Ω resistor to VCC – 2V.
November 2006 * REV - 3
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2
AZ10E116
AZ100E116
10K PECL DC Characteristics (VEE = GND, VCC = VCCO = +5.0V)
-40°C
Typ
0°C
Typ
25°C
Typ
85°C
Typ
Symbol
Characteristic
Unit
Min
3920
3050
3770
3050
3570
Max
4110
3350
4110
3500
3700
150
Min
3980
3050
3830
3050
3620
Max
4160
3370
4160
3520
3730
150
Min
4020
3050
3870
3050
3650
Max
4190
3370
4190
3520
3750
150
Min
4090
3050
3940
3050
3690
Max
4280
3405
4280
3555
3810
150
VOH
VOL
VIH
VIL
VBB
IIH
Output HIGH Voltage1,2
Output LOW Voltage1,2
Input HIGH Voltage1
Input LOW Voltage1
Reference Voltage1
Input HIGH Current
Input LOW Current
Power Supply Current
mV
mV
mV
mV
mV
μA
0.5
0.5
0.5
0.5
IIL
IEE
μA
mA
29
35
29
35
29
35
29
35
1.
2.
For supply voltages other that 5.0V, use the ECL table values and ADD supply voltage value.
Each output is terminated through a 50Ω resistor to VCC – 2V.
100K ECL DC Characteristics (VEE = -4.2V to -5.46V, VCC = VCCO = GND)
-40°C
Typ
-1085 -1005
0°C
Typ
-955
25°C
Typ
-955
85°C
Typ
-955
Symbol
Characteristic
Unit
Min
Max
-880
Min
-1025
Max
-880
Min
-1025
Max
-880
Min
-1025
Max
-880
VOH
Output HIGH Voltage1
Output LOW Voltage1
Input HIGH Voltage
Input LOW Voltage
Reference Voltage
Input HIGH Current
Input LOW Current
Power Supply Current
mV
mV
mV
mV
mV
μA
VOL
VIH
VIL
VBB
IIH
-1830 -1695 -1555 -1810 -1705 -1620 -1810 -1705 -1620 -1810 -1705 -1620
-1165
-1810
-1380
-880
-1475 -1810
-1260 -1380
150
0.5
35
-1165
-880
-1475 -1810
-1260 -1380
150
0.5
35
-1165
-880
-1475 -1810
-1260 -1380
150
0.5
35
-1165
-880
-1475
-1260
150
0.5
IIL
IEE
μA
mA
29
29
29
29
40
1.
Each output is terminated through a 50Ω resistor to VCC – 2V.
100K PECL DC Characteristics (VEE = GND, VCC = VCCO = +5.0V)
-40°C
Typ
3995
3305
0°C
Typ
4045
3295
25°C
Typ
4045
3295
85°C
Typ
4045
3295
Symbol
Characteristic
Unit
Min
3915
3170
3835
3190
3620
Max
4120
3445
4120
3525
3740
150
Min
3975
3190
3835
3190
3620
Max
4120
3380
4120
3525
3740
150
Min
3975
3190
3835
3190
3620
Max
4120
3380
4120
3525
3740
150
Min
3975
3190
3835
3190
3620
Max
4120
3380
4120
3525
3740
150
VOH
VOL
VIH
VIL
VBB
IIH
Output HIGH Voltage1,2
Output LOW Voltage1,2
Input HIGH Voltage1
Input LOW Voltage1
Reference Voltage1
Input HIGH Current
Input LOW Current
Power Supply Current
mV
mV
mV
mV
mV
μA
0.5
0.5
0.5
0.5
IIL
IEE
μA
mA
29
35
29
35
29
35
29
40
1.
2.
For supply voltages other that 5.0V, use the ECL table values and ADD supply voltage value.
Each output is terminated through a 50Ω resistor to VCC – 2V.
AC Characteristics (VEE =10E(-4.94V to -5.46V), 100E(-4.2V to -5.46V); VCC =VCCO =GND or VEE=GND,
VCC=VCCO =10E(+4.94V to +5.46V),100E(+4.2V to +5.46V) )
Unit
Condition
-40°C
Typ
0°C
Typ
25°C
Typ
85°C
Typ
Symbol
Characteristic
Min
Max
Min
Max
Min
Max
Min
Max
Propagation Delay to
Output
tPLH /tPHL
ps
D (Differential)
D (Single-Ended)
Within-Device Skew1
Duty Cycle Skew2
tPLH - tPHL
150
150
300
300
50
500
550
200
150
300
300
50
450
500
200
150
300
300
50
450
500
200
150
300
300
50
450
500
TSKEW
ps
ps
±10
±10
±10
±10
TSKEW
Vpp(AC)
Minimum Input
150
150
150
150
mV
Swing3
Common Mode
Range4
Rise/Fall Time
VCC
- 2.0
250
VCC
- 0.6
625
VCC
- 2.0
275
VCC
- 0.6
575
VCC
- 2.0
275
VCC
- 0.6
575
VCC
- 2.0
275
VCC
- 0.6
575
VCMR
tr/tf
V
ps
20-80%
1.
2.
Within-device skew is defined as identical transitions on similar paths through a device.
Duty cycle skew is defined only for differential operation. The skews are measured from the crossover point of the inputs to the crossover point
of the outputs.
3.
4.
VPP is the minimum peak-to-peak differential input swing for which AC parameters are guaranteed.
The VCMR 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 VPP (min) and 1V.
November 2006 * REV - 3
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3
AZ10E116
AZ100E116
PACKAGE DIAGRAM
PLCC 28
NOTES:
MILLIMETERS
INCHES
1.
DATUMS –L-, -M-, AND –N- DETERMINED
WHERE TOP OF LEAD SHOULDER EXITS
PLASTIC BODY AT MOLD PARTING LINE.
DIMENSION G1, TRUE POSITION TO BE
MEASURED AT DATUM –T-, SEATING PLANE.
DIMENSIONS R AND U DO NOT INCLUDE
MOLD FLASH. ALOWABLE MOLD FLASH IS
0.010mm (0.250in.) PER SIDE.
DIM
A
B
C
E
F
G
H
J
K
R
U
V
W
X
T
MIN
12.32
12.32
4.20
MAX
12.57
12.57
4.57
MIN
0.485
0.485
0.165
0.090
0.013
MAX
0.495
0.495
0.180
0.110
0.019
2.
3.
2.29
2.79
0.33
0.48
4.
DIMENSIONING AND TOLERANCING PER ANSI
Y14.5M, 1982.
1.27 BSC
0.050 BSC
0.66
0.51
0.64
11.43
11.43
1.07
1.07
1.07
0.81
0.026
0.020
0.025
0.450
0.450
0.042
0.042
0.042
0.032
5.
6.
CONTROLLING DIMENSION: INCH.
THE PACKAGE TOP MAY BE SMALLER THAN
THE PACKGE BOTTOM BY UP TO 0.012mm
(0.300in.). DIMENSIONS R AND U ARE
DETERMINED AT THE OUTERMOST
EXTREMES OF THE PLASTIC BODY
EXCLUSIVE OF MOLD FLASH, THE BAR
BURRS, GATE BURRS AND INTERLEAD FLASH,
BUT INCLUDING ANY MISMATCH BETWEEN
THE TOP AND BOTTOM OF THE PLASTIC
BODY.
11.58
11.58
1.21
1.21
1.42
0.50
10O
0.456
0.456
0.048
0.048
0.056
0.020
10O
7.
DIMENSION H DOES NOT INCLUDE DAMBAR
PROTRUSION OR INTRUSION. THE DAMBAR
PROTRUSION(S) SHALL NOT CAUSE THE H
DIMENSION TO BE SMALLER THAN 0.025mm
(0.635in.).
Z
G1
K1
2O
2O
10.42
1.02
10.92
0.410
0.040
0.430
November 2006 * REV - 3
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4
AZ10E116
AZ100E116
Arizona Microtek, Inc. reserves the right to change circuitry and specifications at any time without prior notice. Arizona Microtek, Inc.
makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does Arizona
Microtek, Inc. 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. Arizona Microtek, Inc. does not convey any license
rights nor the rights of others. Arizona Microtek, Inc. products are not designed, intended or authorized for use as components in systems
intended to support or sustain life, or for any other application in which the failure of the Arizona Microtek, Inc. product could create a
situation where personal injury or death may occur. Should Buyer purchase or use Arizona Microtek, Inc. products for any such
unintended or unauthorized application, Buyer shall indemnify and hold Arizona Microtek, Inc. 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
Arizona Microtek, Inc. was negligent regarding the design or manufacture of the part.
November 2006 * REV - 3
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5
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