ZARLINK SL1615NAMP

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This product is obsolete.
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RECOMMENDED FOR NEW DESIGNS
ADVANCE INFORMATION
DS3613 - 1.0
SL1615
WIDEBAND LOG IF STRIP AMPLIFIER
The SL1615 is a bipolar monolithic integrated circuit
wideband amplifier intended for use in successive detection
logarithmic IF strips, operating at centre frequencies between
10MHz and 60MHz. The device provides amplification,
limiting and rectification, is suitable for direct coupling and
incorporates supply line decoupling. The mid-band voltage
gain of the SL1615 is typically 12dB.
MP8
FEATURES
■
■
■
■
■
■
■
Fig.1 Pin connections - top view
Well Defined Gain
4.5dB Noise Figure
High I/P impedance
Low O/P impedance
150MHz Bandwidth
On-Chip Supply Decoupling
Low External Component Count
ABSOLUTE MAXIMUM RATINGS
Storage temperature range
Operating temperature range
Thermal resistance
Chip-to-ambient
Chip-to-case
Maximum instantaneous voltage
at video output
Supply voltage
APPLICATIONS
■
■
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Logarithmic IF Strips with Gains up to 108dB and
Linearity Better than 2dB
Low Cost Radar
Radio Telephone Filed Strength Meters
ORDERING INFORMATION
SL1615 NA MP
Fig.2 Circuit diagram
-55°C to +150°C
-30°C to +85°C
163°C/W
57°C/W
+12V
9V
SL1615
ELECTRICAL CHARACTERISTICS
These characteristics are guaranteed over the following condltions (unless otherwise stated)
Temperature = +22°C ±2°C, Supply Voltage = +6V, DC Connection between Input and Bias Pins
Characteristic
Value
Min.
Typ.
Max.
Units
Conditions
Voltage Gain, f = 30MHz
10
14
dB
10Ω Source, 8pF Load
Voltage Gain, f = 60MHz
10.7
13.3
dB
10Ω Source, 8pF Load
Upper Cut-off frequency (Fig.3)
130
170
MHz
10Ω Source, 8pF Load
Lower Cut-off frequency (Fig.3)
5
MHz
10Ω Source, 8pF Load
Propagination Delay
2
ns
Maximum rectified Video Output
Current (Fig.4 and 5)
0.80
1.40
mA
Variation of Gain with Supply
Voltage
0.7
db/V
Variation of Maximum Rectified
Output Current with Supply
Voltage
25
%/V
1.9
V/rms
4
dB
Maximum Input Signal before
Overload
1.8
Noise Figure (Fig.6)
Supply Current
Maximum RF Output Voltage
11.5
20
1.2
f = 60MHz, 0.5V rms Input
See Note below
f = 60MHz, Rs = 450Ω
mA
Vp-p
Note: Overload occurs when the input signal reaches a level sufficent to forward bias the base-collector junction of TR1 on peaks
Fig.3 Voltage gain v. frequency
SL1615
Fig.4 Rectified Output Current v. Input Signal
Fig.5 Maximum Rectified Output Current v. Temperature
Fig.7 Input Admittance with Open Circuit Output
Fig.6 Typical Noise Figure v. Temperature
SL1615
Fig.8 Direct coupled amplifiers
OPERATING NOTES
The amplifiers are intended for use directly coupled, as
shown in Fig. 8.
The seventh stage in an untuned cascade will be giving
virtually full output on noise.
Noise may be reduced by inserting a single tuned circuit in
the chain. As there is a large mismatch between stages a
simple parallel or series circuit cannot be used. This choice of
network is also controlled by the need to avoid distorting the
logarithmic law: the network must give unity voltage transfer at
resonance. A suitable network is shown in Fig. 9. The value of
C3 must be chosen so that at resonance its admittance equals
the total loss conductance across the tuned circuit. Resistor
R12 may be introduced to improve the symmetry of filter
response, providing other values are adjusted for unity gain at
resonance.
A single capacitor may not be suitable for decoupling the
output line if many stages and fast rise times are required.
Values of supply line decoupling capacitor required for
untuned cascades are given below. Smaller values can be
used in high frequency tuned cascades.
The amplifiers have been provided with two ground leads to
avoid the introduction of common ground lead inductance
between input and output circuits. the equipment designer
should take care to aviod the subsequent introduction of such
inductance.
Number of stages
6 or more
5
4
Minimum capacitance
30nF
10nF
3
3nF lnF
The on-chip 500pF supply decoupling capacitor has a
resistance of, typically 10Ω. It is a junction type having a low
breakdown voltage and consequently the positive supply
current will increase rapidly if the supply voltage exceeds
7.5V. (See Absolute Maximum Ratings).
Centre frequency
60MHz
Dynamic Range
-75dBm to +15dBm
Video rise time
70nSec
Bandwidth
approx. 20MHz
Output voltage
0 - 1.5V
Typical log accuracy
±2dB
Fig.9 Circuit diagram of low strip
SL1615
HEADQUARTERS OPERATIONS
GEC PLESSEY SEMICONDUCTORS
Cheney Manor, Swindon,
Wiltshire SN2 2QW, United Kingdom.
Tel: (0793) 518000
Fax: (0793) 518411
GEC PLESSEY SEMICONDUCTORS
P.O. Box 660017
1500 Green Hills Road,
Scotts Valley, California 95067-0017,
United States of America.
Tel: (408) 438 2900
Fax: (408) 438 5576
CUSTOMER SERVICE CENTRES
• FRANCE & BENELUX Les Ulis Cedex Tel: (1) 64 46 23 45 Tx: 602858F
Fax : (1) 64 46 06 07
• GERMANY Munich Tel: (089) 3609 06-0 Tx: 523980 Fax : (089) 3609 06-55
• ITALY Milan Tel: (02) 66040867 Fax: (02) 66040993
• JAPAN Tokyo Tel: (03) 3296-0281 Fax: (03) 3296-0228
• NORTH AMERICA Integrated Circuits and Microwave Products Scotts Valley, USA
Tel (408) 438 2900 Fax: (408) 438 7023.
Hybrid Products, Farmingdale, USA Tel (516) 293 8686
Fax: (516) 293 0061.
• SOUTH EAST ASIA Singapore Tel: (65) 3827708 Fax: (65) 3828872
• SWEDEN Stockholm, Tel: 46 8 702 97 70 Fax: 46 8 640 47 36
• UNITED KINGDOM & SCANDINAVIA
Swindon Tel: (0793) 518510 Tx: 444410 Fax : (0793) 518582
These are supported by Agents and Distributors in major countries world-wide.
 GEC Plessey Semiconductors 1993 Publication No. DS3613 Issue No. 1.0 June 1993
This publication is issued to provide information only which (unless agreed by the Company in writing) may not be used, applied or reproduced for any purpose nor form part of any order or contract nor to be regarded
as a representation relating to the products or services concerned. No warranty or guarantee express or implied is made regarding the capability, performance or suitability of any product or service. The Company
reserves the right to alter without prior knowledge the specification, design or price of any product or service. Information concerning possible methods of use is provided as a guide only and does not constitute
any guarantee that such methods of use will be satisfactory in a specific piece of equipment. It is the user's responsibility to fully determine the performance and suitability of any equipment using such information
and to ensure that any publication or data used is up to date and has not been superseded. These products are not suitable for use in any medical products whose failure to perform may result in significant injury
or death to the user. All products and materials are sold and services provided subject to the Company's conditions of sale, which are available on request.
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of any order or contract nor to be regarded as a representation relating to the products or services concerned. The products, their specifications, services and other
information appearing in this publication are subject to change by Zarlink without notice. No warranty or guarantee express or implied is made regarding the
capability, performance or suitability of any product or service. Information concerning possible methods of use is provided as a guide only and does not constitute
any guarantee that such methods of use will be satisfactory in a specific piece of equipment. It is the user’s responsibility to fully determine the performance and
suitability of any equipment using such information and to ensure that any publication or data used is up to date and has not been superseded. Manufacturing does
not necessarily include testing of all functions or parameters. These products are not suitable for use in any medical products whose failure to perform may result in
significant injury or death to the user. All products and materials are sold and services provided subject to Zarlink’s conditions of sale which are available on request.
Purchase of Zarlink’s I2C components conveys a licence under the Philips I2C Patent rights to use these components in and I2C System, provided that the system
conforms to the I2C Standard Specification as defined by Philips.
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TECHNICAL DOCUMENTATION - NOT FOR RESALE