ZARLINK ZL40803DCA

ZL40803
6 GHz Fixed Modulus ÷ 2
Data Sheet
Features
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July 2003
3.45V Single Supply Operation
Low Power Dissipation: 250mW typ
Broadband: DC to 6GHz
SSB Phase Noise: –147dBc/Hz @ 10KHz
Pout 0dBm
Surface Mount Plastic Package: 8 SOIC
Ordering Information
ZL40803/DCA (tubes)
8 pin SOIC
ZL40803/DCB (tape and reel) 8 pin SOIC
-40°C to +85°C
Prescaler Modulus
Description
ZL40803 – Divide by 2
The ZL40803 are Bipolar 3.45V supply, very low power
prescalers for professional applications with a fixed
modulus of 2. The ultra low close in (1KHz offset) SSB
phase noise performance is ideal for narrow band
communications systems or systems with ultra low jitter
budgets such as next generation fibre optic
communications. The devices are broadband from DC
to 6GHz.
Applications
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DC to 6 GHz PLL applications
HyperLan
LMDS
Instrumentation
Satellite Communications
Fibre Optic Communications; OC48, OC192
Ultra Low Jitter Clock Systems
See Figure 1 and Application Note for RF Prescalers for
more details.
VCC IN
VCC OUT
1
8
50 Ohm
OUTPUT
7
6
OUTPUT B
Vref
Div N
400 Ohm
INPUT
2
INPUT B
3
20mA
GND
GND
4
5
Figure 1 - Functional Block Diagram
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Copyright 2003, Zarlink Semiconductor Inc. All Rights Reserved.
ZL40803
Data Sheet
Vcc IN
1
8
Vcc OUT
INPUT
2
7
OUTPUT
INPUT Bar
3
6
OUTPUT Bar
GND
4
5
GND
SOIC (N)
Figure 2 - Pin Connections – Top View
Application Configuration
Figure 3 shows a recommended application configuration. This example shows the device set up for single ended
operation.
Application Diagram
C1: 1nF
Rfilter
C3: 100pF
Rsource:
C4: 100pF
1
2
3
4
C2: 10nF
Vcc
8
7
6
5
C5: 10nF
C6: 10nF
Rload
Note: Dotted Components Optional
Figure 3 - Recommended circuit configuration
This represents the circuit used to complete characterisation. The tabulated Electrical performance is guaranteed
using this application circuit.
Unpopulated evaluation boards are available, type No. ZLE40008. A fully populated evaluation board is also
available, type No. ZLE40803.
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ZL40803
Data Sheet
Circuit Options
The application circuit includes some optional components that may be required to improve tolerance of system
noise present in the application.
Dummy R source may be added to the inverting input to provide a better matched source impedance at the input.
This will improve the rejection of common mode noise present within the system.
Dummy R load may be added to the inverting output to provide better matched load at the output. This will reduce
the radiated EMI at the output and reduce the Output Noise present on the supply rail.
Rfilter can be inserted between the Vcc in and the Vcc_out to provide additional filtering to the input Vcc. The input
Vcc powers the input bias reference only and can be a sensitive point to system noise. The nominal input current at
Vcc_IN s 0.35mA. An alternative would be to use an inductive choke.
C1 is additional Supply Filtering and should be added with Rfilter. The IC includes 10pF of on Chip Supply Filtering.
Input & Output Circuit
Figure 4 shows the equivalent input and output circuit
Vcc_Out
I/O Circuits
Vcc_In
Vref
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1.0nH
1.0nH
Gnd
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0.5pF
•
0.8pF
•
Output
Output Bar
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20mA
10mA
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1.0nH
1.0nH
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0.2pF
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Input bar
400 Ohm
Input
400 Ohm
0.5pF
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50 Ohm
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50 Ohm
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Figure 4 - Input and Output Equivalent Circuit
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Gnd
ZL40803
Data Sheet
Phase Noise in dBC/Hz
ZL40803 Phase Noise / Offset Frequency
T = 25C, Vcc =3.6V, Pin = -6dBm
-125
-130
-135
5GHz
3GHz
1GHz
-140
-145
-150
-155
100
1000
10000
Frequency in Hz
Figure 5 - ZL40803 Typical Phase Noise
Absolute Maximum Ratings
Characteristic
Min
Max
Units
- 0.5
6
V
12
dBm
-0.5V
Vcc+0.5
V
Storage Temperature
-55
150
°C
ESD protection
2KV
Supply Voltage (Vcc)
RFin
All I/O ports
Comments
Mil-std 883B / 3015 cat1
Operating Range
Characteristic
Min
Typ
Max
Units
Supply Voltage (Vcc)
3.3
3.6
V
RFin Frequency Range
0.1
6
GHz
Operating Junction Temperature
-40
+125
°C
Comments
Junc’n to Amb’t resistance Theta Ja
150
°C/W
4 layer FR4 Board
Junc’n to Case resistance Theta Jc
60
°C/W
4 layer FR4 Board
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Zarlink Semiconductor Inc.
ZL40803
Data Sheet
AC/DC Electrical Characteristics
Electrical Characteristics †
Characteristic
Pin
Min.
Icc_in (Supply current)
1
Icc_out (Supply current)
8
44
Input frequency
2,3
1
Input sensitivity
2,3
Input overload
2,3
Phase Noise
Typ.
Max.
Units
0.35
Conditions
mA
72
110
mA
6
GHz
RMS sinewave,
-10
dBm
fin = 1GHz to 6GHz, Note1
10
dBm
fin = 1GHz to 6GHz, Note1
6,7
-150
dBC/Hz
Output voltage
6,7
1
Vp-p
Differential Into 50 ohm pull up
resistors
Output power
6,7
dBm
fin = 1GHz to 6GHz, Pin = -10dBm,
Note 2
Output t-rise
6,7
110
ps
fin = 1GHz to 6GHz, Pin = -10dBm
Output t-fall
6,7
110
ps
fin = 1GHz to 6GHz, Pin = -10dBm
T – prop delay
2,6
250
ps
50% IN to 50% OUT
Jitter
6,7
0.1
ps
Output Duty Cycle
6,7
45
Input. Edge Speed
2,3
500
-20
4
-7
-2
2
50
55
%
V/us
@ 10KHz Offset Fin = 3GHz
fin = 1GHz to 6GHz, In = -10dBm
For < 1GHz input operation
† These characteristics are guaranteed by design and characterisation over the following range of operating conditions unless otherwise stated:
Tamb = -40C to + 85C, Vcc = 3.3V to 3.6V.
Note 1: Pin = power measured into 50 ohm Load from 50 ohm Source.
Note 2:
Pout Single Ended AC coupled Single 50 Ohm Termination.
For details of the test set-up, refer to the Application Note for RF Prescalers.
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ZL40803
Data Sheet
T yp ic al In p u t S e n s itiv ity (S in e wa v e D riv e )
15
5
0
Edge
Speed
>5 00 V /us
-5
G u aran te ed O p eratin g R an g e
-40C to 85 C
-1 0
-1 5
-2 0
-2 5
-3 0
-3 5
1
2
3
4
5
6
7
8
In p u t F re q u e n c y (GHz )
Figure 6 - Typical Input Sensitivity (sine wave drive)
Vcc out
50 Ohm
50 Ohm
Transmission Line
50 Ohm
0
50 Ohm
Vin into 50 Ohm (dBm)
10
Gnd
Optional
Balance
Pre-scaler Output
Figure 7 - Single Ended AC Coupled Single Termination
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ZL40803
Data Sheet
Phase Noise in dBC/Hz
ZL40803 Phase Noise / Fin
T =25C, Vcc = 3.6V, Pin = -6dBm
-125
-130
100
1000
10000
100000
-135
-140
-145
-150
0
1
2
3
4
5
6
Fin in GHz
Figure 8 - ZL40803 Phase Noise vs Input Frequency
ZL40803 Frequency_sweep, Vcc = 3.3v
Device 2,Temperature = -40°C
Device 2,Temperature = 25°C
Device 2,Temperature = 85°C
2
1
o/p level (dBm)
0
-1
-2
-3
-4
-5
-6
-7
-8
1.00E+09
1.00E+10
i/p frequency (Hz)
Figure 9 - ZL40803 Pout vs Input Frequency
(Vcc = 3.3V, T=25C, T=85C)
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Zarlink Semiconductor Inc.
ZL40803
Data Sheet
Frequency_sweep, Vcc = 3.6v
Device 2,Temperature = -40°C
Device 2,Temperature = 25°C
Device 2,Temperature = 85°C
4
3
2
o/p level (dBm)
1
0
-1
-2
-3
-4
-5
-6
-7
-8
1.00E+09
1.00E+10
i/p frequency (Hz)
Figure 10 - ZL40803 Pout vs Input Frequency
(Vcc = 3.6V, T=25C, T=85C)
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ZL40803
Data Sheet
Single Ended or Differential Load
Figures 11 and 12 illustrate the output waveform when measured differential and single ended with a 5GHz
waveform at the input at a level of +2dBm. The single ended output contains some input frequency break through
which contributes to the distortion present. This is a common mode signal which is rejected if the output is taken
differentially.
Differential operation also provides an additional 3dB.
Differential Operation reduces the radiated EMI in the system and reduces the susceptibility to common mode
system noise.
Figure 11 - ZL40803 Single Ended Out @ 5GHz +2dBm
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ZL40803
Figure 12 - ZL40803 Differential Out @ 5GHz +2dBm
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Data Sheet
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Copyright Zarlink Semiconductor Inc. All Rights Reserved.
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