AZM AZP96_09

AZP96
ARIZONA MICROTEK, INC.
ECL/PECL Differential Receiver
FEATURES
•
•
•
•
•
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PACKAGE AVAILABILITY
Green and RoHS Compliant / Lead (Pb)
Free Package available
250ps Propagation Delay
High Bandwidth Output Transitions
Operating Range of 3.0V to 5.5V
Minimized Input Loading
IBIS Model File Available on Arizona
Microtek Website
PACKAGE
MLP 8 (2x2)
Green / RoHS
Compliant / Lead
(Pb) Free
1
2
PART NUMBER
AZP96NG
MARKING
Q1G
<Date Code>
NOTES
1,2
Add R1 at end of part number for 7 inch (1K parts), R2 for 13 inch (2.5K parts)
Tape & Reel.
Date code format: “Y” for year followed by “WW” for week.
DESCRIPTION
The AZP96 is a differential receiver without the input clamping networks found on similar devices such as the
AZ100LVEL16. This makes it especially useful as a buffer when input loading effects must be minimized. Removal
of the input clamping network means that the output state will be undefined if both inputs are left open.
The AZP96 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 D/D
¯ differential input
pair. The input signal is then fed to the other D/D
¯ input. The VBB pin can support 1.5 mA sink/source current. When
used, the VBB pin should be bypassed to ground via a 0.01 μF capacitor.
NOTE: Specifications in the ECL/PECL/LVPECL tables are valid when thermal equilibrium is established.
AZP96N
MLP 8, 2x2 mm
PIN DESCRIPTION
PIN
D, D
¯
Q, Q
¯
VBB
VCC
VEE
NC
FUNCTION
Data Inputs
Data Outputs
Reference Voltage Output
Positive Supply
Negative Supply
No Connect
NC
1
8
VCC
D
2
7
Q
D
3
6
Q
VBB
4
5
VEE
TOP VIEW
Bottom Center Pad may be left open or tied to VEE.
1630 S. STAPLEY DR., SUITE 127 • MESA, ARIZONA 85204 • USA • (480) 962-5881 • FAX (623) 505-2414
www.azmicrotek.com
AZP96
Absolute Maximum Ratings are those values beyond which device life may be impaired.
Symbol
VCC
VI
VEE
VI
IOUT
TA
TSTG
Characteristic
PECL Power Supply (VEE = 0V)
PECL Input Voltage
(VEE = 0V)
ECL Power Supply
(VCC = 0V)
ECL Input Voltage
(VCC = 0V)
Output Current
--- Continuous
--- Surge
Operating Temperature Range
Storage Temperature Range
Rating
0 to +8.0
0 to +6.0
-8.0 to 0
-6.0 to 0
50
100
-40 to +85
-65 to +150
Unit
Vdc
Vdc
Vdc
Vdc
mA
°C
°C
100K ECL DC Characteristics (VEE = -3.0V to -5.5V, VCC = GND)
Symbol
Characteristic
1
Min
-1085
-1830
-1165
-1810
-1380
0.5
-40°C
Typ
-1005
-1695
Max
-880
-1555
-880
-1475
-1260
VOH
Output HIGH Voltage
VOL
Output LOW Voltage1
VIH
Input HIGH Voltage
VIL
Input LOW Voltage
VBB
Reference Voltage
Input LOW Current
IIL
Input HIGH Current
50
IIH
IEE
Power Supply Current
18
22
1.
Each output is terminated through a 50Ω resistor to VCC – 2V.
Min
-1025
-1810
-1165
-1810
-1380
0.5
0°C
Typ
-955
-1705
18
Max
-880
-1620
-880
-1475
-1260
Min
-1025
-1810
-1165
-1810
-1380
0.5
50
22
25°C
Typ
-955
-1705
18
Max
-880
-1620
-880
-1475
-1260
Min
-1025
-1810
-1165
-1810
-1380
0.5
50
22
85°C
Typ
-955
-1705
18
Max
-880
-1620
-880
-1475
-1260
50
24
Unit
mV
mV
mV
mV
mV
μA
μA
mA
100K LVPECL DC Characteristics (VEE = GND, VCC = +3.3V)
Symbol
Characteristic
1,2
Min
2215
1470
2135
1490
1920
0.5
-40°C
Typ
2295
1605
Max
2420
1745
2420
1825
2040
Min
2275
1490
2135
1490
1920
0.5
0°C
Typ
2345
1595
Max
2420
1680
2420
1825
2040
Min
2275
1490
2135
1490
1920
0.5
VOH
Output HIGH Voltage
VOL
Output LOW Voltage1,2
VIH
Input HIGH Voltage1
VIL
Input LOW Voltage1
VBB
Reference Voltage1
Input LOW Current
IIL
IIH
Input HIGH Current
50
50
IEE
Power Supply Current
18
22
18
22
1.
For supply voltages other that 3.3V, use the ECL table values and ADD supply voltage value.
2.
Each output is terminated through a 50Ω resistor to VCC – 2V.
25°C
Typ
2345
1595
18
Max
2420
1680
2420
1825
2040
Min
2275
1490
2135
1490
1920
0.5
50
22
85°C
Typ
2345
1595
18
Max
2420
1680
2420
1825
2040
50
24
Unit
mV
mV
mV
mV
mV
μA
μA
mA
100K PECL DC Characteristics (VEE = GND, VCC = +5.0V)
Symbol
Characteristic
Min
3915
3170
3835
3190
3620
0.5
-40°C
Typ
3995
3305
Max
4120
3445
4120
3525
3740
Min
3975
3190
3835
3190
3620
0.5
0°C
Typ
4045
3295
Max
4120
3380
4120
3525
3740
Min
3975
3190
3835
3190
3620
0.5
VOH
Output HIGH Voltage1,2
VOL
Output LOW Voltage1,2
VIH
Input HIGH Voltage1
VIL
Input LOW Voltage1
VBB
Reference Voltage1
Input LOW Current
IIL
IIH
Input HIGH Current
50
50
IEE
Power Supply Current
18
22
18
22
1.
For supply voltages other that 5.0V, use the ECL table values and ADD supply voltage value.
2.
Each output is terminated through a 50Ω resistor to VCC – 2V.
June 2009 * REV - 3
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2
25°C
Typ
4045
3295
18
Max
4120
3380
4120
3525
3740
50
22
Min
3975
3190
3835
3190
3620
0.5
85°C
Typ
4045
3295
18
Max
4120
3380
4120
3525
3740
50
24
Unit
mV
mV
mV
mV
mV
μA
μA
mA
AZP96
AC Characteristics (VEE = -3.0V to -5.5V; VCC = GND or VEE = GND; VCC = +3.0V to +5.5V)
Symbol
Characteristic
Min
-40°C
Typ
Max
Min
0°C
Typ
Max
Min
25°C
Typ
Max
Min
85°C
Typ
Max
Propagation Delay
to Output
(Diff)
125
250
375
175
250
325
175
250
325
205
280
355
(SE)
75
250
425
125
250
375
125
250
375
155
280
405
tSKEW
Duty Cycle Skew 1(Diff)
5
5
20
5
20
5
20
VPP (AC) Minimum Input Swing2
150
150
150
150
Common Mode Range3
VEE +
VCC - VEE +
VCC - VEE +
VCC - VEE +
VCC VPP < 500mV
1.2
0.4
1.1
0.4
1.1
0.4
1.1
0.4
VCMR
1.5
0.4
1.4
0.4
1.4
0.4
1.4
0.4
VPP ≥ 500mV
Output Rise/Fall Times Q
tr / t f
100
260
100
260
100
260
100
260
(20% - 80%)
1.
Duty cycle skew is the difference between a tPLH and tPHL propagation delay through a device.
2.
VPP is the minimum peak-to-peak differential input swing for which AC parameters are guaranteed. The device has a DC gain of ≈ 40.
3.
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.
tPLH / tPHL
Typical Large Signal Outputs, Q/Q
¯
1000
900
800
VOUTpp(mV)
700
600
500
400
300
200
100
0
0
500
1000
1500
2000
2500
3000
3500
FREQUENCY (MHz)
Measured with 750mv differential (D/D
¯ ) input, Q/Q
¯ each terminated to VCC-2V via
50 Ω resistors.
June 2009 * REV - 3
www.azmicrotek.com
3
4000
Unit
ps
ps
mV
V
ps
AZP96
Recommended Circuit for Single-Ended Input Limiting Applications
June 2009 * REV - 3
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4
AZP96
PACKAGE DIAGRAM
MLP 8 2x2mm
Pin 1 Dot
By Marking
2.000±0.050
MLP 8
(2x2mm)
2.000±0.050
TOP VIEW
Pin 1 Identification
R0.100 TYP
0.350±0.050
0.250±0.050
0.500 bsc
8
1
7
6
2 1.200±0.050
exp. pad
3
5
4
0.600±0.050
exp. pad
BOTTOM VIEW
0.750±0.050
0.000-0.050
1
2
SIDE VIEW
Note: All dimensions are in mm
June 2009 * REV - 3
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5
3 4
0.203±0.025
1.750
Ref.
AZP96
TAPE & REEL PACKAGING
MLP 8 2x2mm
Direction of Travel
Package
MLP 8 (2x2mm)
June 2009 * REV - 3
Suffix
R1
R2
Reel Diameter
7”
13”
Quantity
1000
2500
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6
Carrier Tape Width
8mm
8mm
Carrier Tape Pitch
4mm
4mm
AZP96
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.
June 2009 * REV - 3
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7