Philips Stereo Amplifier SA2411 User Manual

INTEGRATED CIRCUITS  
SA2411  
+20 dBm single chip linear amplifier for WLAN  
Product data  
2003 Feb 07  
Supersedes data of 2002 Jul 31  
Philips  
Semiconductors  
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Philips Semiconductors  
Product data  
+20 dBm single chip linear amplifier for WLAN  
SA2411  
5. PINNING INFORMATION  
V
_MAIN  
1
2
3
4
5
6
7
8
16  
V
_BIAS  
DD  
DD  
V
_DRIVER  
GND  
IN+  
15 PWRUP  
14 GND  
DD  
13 RF_GND  
12 ANT  
IN–  
GND  
11 GND  
DETECTOR  
GND  
10 MODE  
9
GND  
SR02384  
Figure 2. Pin configuration  
Table 2. Pin description  
PIN type is designated by A = Analog, D = Digital, I = Input, O = Output  
SYMBOL  
_MAIN  
PIN  
1
DESCRIPTION  
Analog supply, V for power amplifier, 150 mA  
TYPE  
V
V
A
DD  
DD  
_DRIVER  
2
Analog supply, V for biasing driver, 35 mA  
A
DD  
DD  
GND  
3
Grounding  
A
IN+  
4
Input pin, positive part of balanced signal  
Input pin, negative part of balanced signal  
Grounding  
AI  
AI  
A
IN–  
5
GND  
6
DETECTOR  
GND  
7
Power detector output  
AO  
A
8
Grounding  
GND  
9
Grounding  
A
MODE  
GND  
10  
11  
12  
13  
14  
15  
16  
Mode switch; floating = high gain, grounded = low gain  
Grounding  
AI  
A
ANT  
Output pin, RF, to antenna  
RF ground must be connected  
Grounding  
AO  
A
RF_GND  
GND  
A
PWRUP  
Power up pin. HIGH = amplifier is on. LOW = amplifier is off.  
DI  
A
V
DD  
_BIAS  
Analog supply, V for biasing the amplifier, 5 mA  
DD  
All GND pins should be connected to ground to guarantee the best performance.  
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Product data  
+20 dBm single chip linear amplifier for WLAN  
SA2411  
6. FUNCTIONAL DESCRIPTION  
The main building-blocks are:  
Fixed gain amplifier (PA)  
Output matching  
Input matching  
Power Detector  
Power Mode  
Input  
The device has differential inputs so a balun is needed in the case of single ended operation, input impedance is approximately 75 + 25j ,  
balanced. The inputs can be DC biased with the pin V _DRIVER. The input matching is optimized to interface with the SA2400A WLAN  
DD  
transceiver chip.  
Amplifier  
The amplifier is a fixed gain, class AB amplifier. There is an additional pin, V _BIAS, to adjust the class A bias current. Reducing the class A  
DD  
currents reduces the gain. This allows trade-offs to be made among gain, linearity and current.  
Output matching  
The output of the amplifier is matched, on chip, for a 50 load. The matching includes the supply feed for the power amplifier. The pin  
V
DD  
_MAIN is the main supply for the amplifier. No additional filtering is needed to meet the 802.11b spec.  
Power detector  
The power detector detects the power level and transforms it into a low frequency current. The detector output must be loaded with a resistor to  
ground for the highest accuracy. This resistor has an optimal value of 5.6 k. Lower values can be used to comply with maximum input  
sensitivity of ADCs, at the cost of dynamic range. The maximum voltage detected is 2.3 V.  
Power mode  
This pin selects the desired gain and linearity level (13 dB or 14.5 dB gain). The low gain is more applicable to high voltage applications from  
3.3 V to 3.6 V. The high gain is more applicable to low voltage applications lower than 3.3 V.  
NOTE:  
In order to assure optimal thermal performance, it is recommended that all ground pins be connected, and that the number of vias to ground  
under the chip be maximized. In addition, the use of solder mask under the chip (for scratch protection) is not recommended.  
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+20 dBm single chip linear amplifier for WLAN  
SA2411  
7. CONNECTIVITY DIAGRAM  
ANT  
V
PWRUP  
DD  
R1  
L1  
C1  
SA2411  
L2  
C2  
Idet.  
R2  
L3  
C4  
C3  
V
det  
RFin  
RFin  
SR02385  
C1, C2, C3  
C4  
= 5.6 pF  
= 10 nF  
R1  
= optional connect to ground via 0 W resistor.  
R2  
= optional resistor to ground to convert current into voltage  
L1, L2, L3  
= Optional inductors  
1 nH 10 nH, or microstrip lines with length 1 10 mm.  
No inductors and directly connecting all supplies to V might cause problems. The optimal values of the inductors  
DD  
depends on the application board.  
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Product data  
+20 dBm single chip linear amplifier for WLAN  
SA2411  
8. OPERATION  
The SA2411 linear amplifier is intended for operation in the 2.4 GHz band, specifically for IEEE 802.11 1 and 2 Mbits/s DSSS, and 5.5 and 11  
Msymbols/s CCK standards. Throughout this document, the operating RF frequency refers to the ISM band between 2.4 and 2.5 GHz.  
Amplifier Output Power  
The SA2411 linear amplifier is designed to give at least 19 dBm output power for an 11 Msymbols/s CCK modulated input carrier. At 19 dBm  
output power the ACPR specs are met. The fixed gain amplifier amplifies the input signal by 14.5 dB typically.  
Power Mode  
The biasing can be adjusted to change the gain and therefore the maximum linear output power. For high supply voltages (>3.2 V) the low-gain  
mode is advised. For low supply voltages (<3.3 V) the high-gain mode is advised.  
Power Mode  
Pin 9 =  
Typical output power Typical small  
signal Gain  
Typical DC current  
(no RF signal)  
Typical Current  
consumption  
High  
Low  
Floating  
20.0 dBm  
20.0 dBm  
14.5 dB  
13 dB  
35 mA  
28 mA  
185 mA @ 20 dBm  
185 mA @ 20 dBm  
Grounded  
Power detector  
The power detector current output is linear proportional with the RF output voltage. The RF output power is quadratic proportional to the RF  
output voltage. Therefore, the detector is quadratic proportional to the output power. The following relation can be expressed:  
Pout + k   Vndetector  
2
P
out  
is output power in mWatt, V  
is detector voltage in Volt, k = sensitivity in mWatt/V , n = quadratic factor.  
detector  
2
The quadratic factor is 1.5. The sensitivity is then 49 mWatt/V .  
P
out  
V
(5.6 kload)  
I
(5.6 kin series)  
detector  
detector  
20 dBm = 100 mW  
19 dBm = 79 mW  
17 dBm = 50 mW  
15 dBm = 32 mW  
9 dBm = 8 mW  
1.7 V  
1.4 V  
1.0 V  
0.7 V  
0.3 V  
300 uA  
250 uA  
175 uA  
125 uA  
50 uA  
The loading of the detector can be different in the application. The highest accuracy is achieved with 5.6 k. But other values can be used to  
adapt to the maximum input sensitivity of other circuits. Other detector loading values result in other k-factors. The maximum detector voltage is  
limited to about 2.4 V.  
DC feed at input  
There is a possibility to add a DC voltage at the input pins (pin 4 and pin 5) by feeding pin 2. This option should be used in case the SA2411 is  
lined up with the SA2400A.  
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Product data  
+20 dBm single chip linear amplifier for WLAN  
SA2411  
9. OPERATING CONDITIONS  
The SA2411 shall meet all of the operating conditions outlined in this section. Table 3 specifies the absolute maximum ratings for the device.  
Table 4 gives the recommended operating conditions.  
Table 3. Absolute maximum ratings  
Symbol  
Parameter  
Min  
–55  
–0.5  
–0.5  
Max  
Unit  
°C  
V
T
stg  
Storage temperature  
+150  
+3.85  
V
Supply voltage (analog)  
Voltage applied to inputs  
Short circuit duration, to GND or V  
DDa  
V
1
+0.5  
V
DD  
sec  
DD  
Table 4. Recommended operating conditions  
Symbol  
Parameter  
Min  
–40  
2.85  
Nom  
Max  
Units  
°C  
T
amb  
Ambient operating temperature  
Supply voltage (analog)  
+85  
3.6  
V
DDa  
3.3  
V
10. SA2411 TRANSMITTER REQUIREMENTS  
Table 5. SA2411 transmitter specifications  
T
amb  
= 25 °C; V = 3 V; frequency = 2.45 GHz, R  
= 5.6 k, unless otherwise stated.  
CC  
detector  
Specification  
DC  
Condition, Remarks  
Min  
Nom  
Max  
Units  
DC current  
Standard mode (pin 10 is floating)  
Low output power mode (pin 10 is grounded)  
Vpwrup = 0 V. Vss = 3.0 V  
35  
28  
mA  
mA  
µA  
DC current  
Leakage current  
AC : 802.11b MODULATION  
Output back off  
RF frequency  
Input impedance  
Load impedance  
10  
(relative to 1 dB compression of single carrier)  
2
dB  
GHz  
2.4  
2.45  
100  
50  
2.5  
Differential (75 + 25j )  
Single ended  
Power gain for small signal  
Power gain for small signal  
Mode = High gain, Input level = –20 dBm  
Mode = Low gain, Input level = –20 dBm  
14.5  
13  
dB  
dB  
Output power  
Current consumption  
Gain  
Meeting the FCC specs of 30 dBc and 50 dBc, mode = high  
+20.0  
200  
dBm  
mA  
dB  
12.5  
+20.0  
200  
Output power  
Current consumption  
Gain  
Meeting the FCC specs of 30 dBc and 50 dBc, mode = low  
dBm  
mA  
dB  
12.5  
Power ramping up time  
10% to 90% ramp up  
0.5  
µs  
Power ramping down (when  
enabled)  
a) 90% to 10% ramp down  
b) 10% to carrier leakage level  
0.5  
0.5  
µs  
Error Vector Magnitude  
Isolation  
11 Msymbols/s QPSK. Both RF outputs.  
Pin 15 (PWRUP) = 0 V  
5
%
15  
40  
dB  
dBc  
Harmonic Suppression at 2 and 3 fundamental frequency output power = +20 dBm  
times fundamental frequency  
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+20 dBm single chip linear amplifier for WLAN  
SA2411  
Table 6. SA2411 Detector specification  
T
amb  
= 25 °C, V = 3.0 V  
CC  
Specification  
Condition, Remarks  
Min  
Nom  
Max  
Units  
GENERAL  
2
Detector sensitivity  
With 5 kload resistor to ground  
At 16 dBm –40 °C to +80 °C; from 2.7 V to 3.6 V  
From sample to sample  
49  
mW/V  
Detector accuracy per sample  
Absolute accuracy  
0.3  
0.5  
1.5  
500  
1
dB  
dB  
Detector quadratic factor  
Detector settling time  
Spread from sample to sample  
Absolute detector voltage  
Absolute detector voltage error  
From 10% to 90% of final value  
20 dBm output power  
ns  
dB  
V
19 dBm output power  
1.4  
0.15  
From –30 °C to +80 °C;  
from 2.7 V to 3.6 V at 19 dBm output power  
V
Detector power range  
+10  
+21  
dBm  
11. GRAPHS  
The following graphs are only for a typical sample measured on a SA2411 test board under nominal condition applying an 11Mb/s CCK 802.11b  
modulation. Corrections for input, output and supply losses have been applied. The dotted lines represent the low gain mode. The solid  
lines are for the high gain mode.  
The first two graphs are small signal graphs. The gain and the DC currents are plotted versus supply voltage.  
DC current versus Supply Voltage  
Gain versus Supply Voltage  
50  
40  
30  
20  
10  
18.0  
16.0  
14.0  
12.0  
10.0  
2.7  
2.9  
3.1  
3.3  
3.5  
2.7  
2.9  
3.1  
3.3  
3.5  
SR02464  
Supply Voltage[V]  
Supply Voltage[V]  
SR02465  
Figure 3. DC current vs. supply voltage  
Figure 4. Gain vs. supply voltage  
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Product data  
+20 dBm single chip linear amplifier for WLAN  
SA2411  
The next eight graphs are presenting the power sweep for both gain modes at nominal conditions.  
Output Power versus Input Power  
Efficiency versus Output Power  
22  
20  
18  
16  
14  
12  
10  
25.0%  
20.0%  
15.0%  
10.0%  
5.0%  
0.0%  
–4  
–2  
0
2
4
6
8
–2  
2
6
10  
14  
18  
22  
Pin[dbm]  
Pout[dbm]  
SR02466  
SR02468  
Figure 5. Output power vs. input power  
Figure 7. Efficiency vs. output power  
Gain versus Output Power  
Current consumption vs Output Power  
16  
15  
14  
13  
12  
200  
150  
100  
50  
0
5
10  
15  
20  
–10  
–6  
–2  
2
6
10  
14  
18  
22  
Pout[dbm]  
Pout[dbm]  
SR02469  
SR02467  
Figure 6. Gain vs. output power  
Figure 8. Current consumption vs. output power  
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+20 dBm single chip linear amplifier for WLAN  
SA2411  
Detector Voltage versus Output Power  
ACPR versus Output Power  
2
–25  
1.5  
–30  
–35  
–40  
–45  
1
0.5  
0
8
10  
12  
14  
16  
18  
20  
22  
7
12  
17  
22  
Pout[dbm]  
Pout[dbm]  
SR02470  
SR02472  
Figure 11. Detector voltage vs. output power  
Figure 9. ACPR vs. output power  
Detector Error versus Output Power  
ALT versus Output Power  
1.0  
–46  
–50  
–54  
–58  
–62  
0.5  
0.0  
–0.5  
–1.0  
7
12  
17  
22  
7
12  
17  
22  
Pout[dbm]  
Pout[dbm]  
SR02473  
SR02471  
Figure 12. Detector error vs. output power  
Figure 10. ALT vs. output power  
10  
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+20 dBm single chip linear amplifier for WLAN  
SA2411  
The next curves present the frequency dependency for an input power of +7 dBm:  
Efficiency versus Frequency  
Output Power versus Frequency  
20.0%  
15.0%  
10.0%  
5.0%  
21  
20  
19  
18  
17  
2.40E+00  
2.43E+00  
2.45E+00  
2.48E+00  
2.50E+00  
0.0%  
2.40E+00  
2.43E+00  
2.45E+00  
2.48E+00  
2.50E+00  
SR02476  
Frequency[GHz]  
Frequency[GHz]  
SR02474  
Figure 13. Output power vs. frequency  
Figure 15. Efficiency vs. frequency  
ACPR versus frequency  
Gain versus Frequency  
–28  
–30  
–32  
–34  
–36  
15  
14  
13  
12  
11  
2.40E+00  
2.43E+00  
2.45E+00  
2.48E+00  
2.50E+00  
2.40E+00  
2.43E+00  
2.45E+00  
2.48E+00  
2.50E+00  
SR02475  
Frequency[GHz]  
Frequency[GHz]  
SR02477  
Figure 14. Gain vs. frequency  
Figure 16. ACPR vs. frequency  
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+20 dBm single chip linear amplifier for WLAN  
SA2411  
ALT versus Frequency  
Detector Errror versus Frequency  
–48  
1.0  
0.5  
–50  
–52  
–54  
–56  
0.0  
–0.5  
–1.0  
2.40E+00  
2.43E+00  
2.45E+00  
2.48E+00  
2.50E+00  
2.40E+00  
2.43E+00  
2.45E+00  
2.48E+00  
2.50E+00  
Frequency[GHz]  
Frequency[GHz]  
SR02478  
SR02480  
Figure 17. ALT vs. frequency  
Figure 19. Detector error vs. frequency  
Detector Voltage versus Frequency  
2
1.5  
1
0.5  
0
2.40E+00  
2.43E+00  
2.45E+00  
2.48E+00  
2.50E+00  
Frequency[GHz]  
SR02479  
Figure 18. Detector voltage vs. frequency  
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+20 dBm single chip linear amplifier for WLAN  
SA2411  
The last 5 curves are characterization data for supply voltage, temperature and power. The worst-case scenario is the combination of highest  
temperature/lowest supply. The best-case scenario is the combination of lowest temperature and highest supply voltage. The data has been  
taken using a non-modulated carrier at 2.5 GHz.  
50.00  
–30  
0
30.00  
28.00  
26.00  
24.00  
22.00  
20.00  
–30  
0
45.00  
40.00  
35.00  
30.00  
25.00  
25  
70  
85  
25  
70  
85  
2.8  
3.0  
3.2  
3.4  
3.6  
2.8  
3.0  
3.2  
3.4  
3.6  
Supply Voltage [V]  
Supply Voltage [V]  
SR02484  
SR02481  
Figure 20. DC current vs. supply voltage, mode = high  
Figure 23. Efficiency vs. supply voltage, mode = high  
0.50  
17.00  
16.00  
15.00  
14.00  
13.00  
–30  
–30  
0
0
0.25  
0.00  
25  
70  
85  
25  
70  
85  
–0.25  
–0.50  
2.8  
3.0  
3.2  
3.4  
3.6  
2.8  
3.0  
3.2  
3.4  
3.6  
Supply Voltage [V]  
Supply Voltage [V]  
SR02482  
SR02485  
Figure 21. Gain vs. supply voltage, mode = high  
Figure 24. Detector error vs. supply voltage, mode = high  
20.00  
–30  
0
19.00  
18.00  
17.00  
25  
70  
85  
2.8  
3.0  
3.2  
3.4  
3.6  
Supply Voltage [V]  
SR02483  
Figure 22. Output power vs. supply voltage, mode = high  
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+20 dBm single chip linear amplifier for WLAN  
SA2411  
12. APPLICATION WITH THE SA2400A  
Next diagram is the application of the SA2400A with the SA2411.  
The interface is simple. Two equal microstrip lines connect the SA2400A with the SA2411. The length of this connection should be kept to a  
minimum.  
The supply for the open collectors of the SA2400A is provided via pin 2 of the SA2411.  
C2 is for supply voltage decoupling.  
RF connection  
V
PWRUP  
DD  
Other connection  
16  
15  
14  
13  
12  
11  
10  
9
SA2411  
1
2
3
4
5
6
7
8
I
detector  
C2  
3-WIRE BUS  
48  
47  
46  
45  
44  
43  
42  
41  
40  
39  
38  
37  
TX_IN_I_P/  
TX_DATA_I  
AGCRESET  
AGCSET  
1
36  
35  
34  
33  
TX_IN_I_M/  
TX_DATA_Q  
2
3
4
IDCOUT  
A_GND  
TX_IN_Q_P  
TX_IN_Q_M  
SA2400A  
SR02487  
Figure 25.  
NOTE: A suggested starting point for designing the coupled microstrip lines:  
Length = 1/18 λ. Width = 12 mils, Separation = 5 mils with the Dielectric constant = 4.6.  
This should result in Z = 150 , Z = 75 , and Z = 30 .  
even  
o
odd  
There should be no ground plane under the microstrip lines.  
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+20 dBm single chip linear amplifier for WLAN  
SA2411  
TSSOP16: plastic thin shrink small outline package; 16 leads; body width 4.4 mm  
SOT403-1  
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+20 dBm single chip linear amplifier for WLAN  
SA2411  
REVISION HISTORY  
Rev  
Date  
Description  
_3  
20030207  
Product data (9397 750 10825); ECN 853-2346 29486 of 07 February 2003;  
supersedes Preliminary data SA2411 revision 2 of 31 July 2002 (9397 750 10166).  
Modifications:  
Features (Section 2.)  
First bullet: from “75 ” to “75 + 25j ”  
delete bullet “1 dB attenuator”  
Block diagram: signal “Power mode” changed to “Power-up power mode”.  
Pin names modified.  
Functional description (Section 6.), Power mode: from “(14 dB or 14.5 dB gain)” to “(13 dB or 14.5 dB gain)”.  
Typical small signal Gain (HIGH) changed from 15 dB to 14.5 dB; (LOW) changed from 14 dB to 13 dB.  
Input impedance (nom) changed from 200 to 100 ; Condition changed from “differential (100 + 100 )” to  
“differential (75 + 25j )”  
Gain (nom) changed from 13.0 dB to 12.5 dB.  
Output power (nom) changed from +20.5 to +20.0.  
Figures 20 through 24 modified.  
Note added below Figure 25.  
_2  
_1  
20020731  
20020723  
Preliminary data (9397 750 10166).  
Preliminary data (9397 750 10144).  
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+20 dBm single chip linear amplifier for WLAN  
SA2411  
Data sheet status  
Product  
status  
Definitions  
[1]  
Level  
Data sheet status  
[2] [3]  
I
Objective data  
Development  
This data sheet contains data from the objective specification for product development.  
Philips Semiconductors reserves the right to change the specification in any manner without notice.  
II  
Preliminary data  
Product data  
Qualification  
Production  
This data sheet contains data from the preliminary specification. Supplementary data will be published  
at a later date. Philips Semiconductors reserves the right to change the specification without notice, in  
order to improve the design and supply the best possible product.  
III  
This data sheet contains data from the product specification. Philips Semiconductors reserves the  
right to make changes at any time in order to improve the design, manufacturing and supply. Relevant  
changes will be communicated via a Customer Product/Process Change Notification (CPCN).  
[1] Please consult the most recently issued data sheet before initiating or completing a design.  
[2] The product status of the device(s) described in this data sheet may have changed since this data sheet was published. The latest information is available on the Internet at URL  
[3] For data sheets describing multiple type numbers, the highest-level product status determines the data sheet status.  
Definitions  
Short-form specification — The data in a short-form specification is extracted from a full data sheet with the same type number and title. For detailed information see  
the relevant data sheet or data handbook.  
LimitingvaluesdefinitionLimiting values given are in accordance with the Absolute Maximum Rating System (IEC 60134). Stress above one or more of the limiting  
values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or at any other conditions above those given  
in the Characteristics sections of the specification is not implied. Exposure to limiting values for extended periods may affect device reliability.  
Application information — Applications that are described herein for any of these products are for illustrative purposes only. Philips Semiconductors make no  
representation or warranty that such applications will be suitable for the specified use without further testing or modification.  
Disclaimers  
Life support — These products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be  
expected to result in personal injury. Philips Semiconductors customers using or selling these products for use in such applications do so at their own risk and agree  
to fully indemnify Philips Semiconductors for any damages resulting from such application.  
Right to make changes — Philips Semiconductors reserves the right to make changes in the products—including circuits, standard cells, and/or software—described  
or contained herein in order to improve design and/or performance. When the product is in full production (status ‘Production’), relevant changes will be communicated  
viaaCustomerProduct/ProcessChangeNotification(CPCN).PhilipsSemiconductorsassumesnoresponsibilityorliabilityfortheuseofanyoftheseproducts,conveys  
nolicenseortitleunderanypatent, copyright, ormaskworkrighttotheseproducts, andmakesnorepresentationsorwarrantiesthattheseproductsarefreefrompatent,  
copyright, or mask work right infringement, unless otherwise specified.  
Koninklijke Philips Electronics N.V. 2003  
Contact information  
All rights reserved. Printed in U.S.A.  
For additional information please visit  
Fax: +31 40 27 24825  
Date of release: 02-03  
9397 750 10825  
For sales offices addresses send e-mail to:  
Document order number:  
Philips  
Semiconductors  
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