phemt switch macom
GaAs SP4T High Power Switch
DC - 3 GHz
MASW-007813
M/A-COM Inc. and its affiliates reserve the right to make changes to the
product(s) or information contained herein without notice. M/A-COM makes
no warranty, representation or guarantee regarding the suitability of its
products for any particular purpose, nor does M/A-COM assume any liability
whatsoever arising out of the use or application of any product(s) or
information.
• North America Tel: 800.366.2266 / Fax: 978.366.2266
• Europe Tel: 44.1908.574.200 / Fax: 44.1908.574.300
• Asia/Pacific Tel: 81.44.844.8296 / Fax: 81.44.844.8298
RoHS
Compliant
Features
• Low Voltage Operation: 2.5 V
• Low Harmonics: < -66 dBc at +34 dBm & 1 GHz
• Low Insertion Loss: 0.7 dB at 1 GHz
• High Isolation: 25 dB at 2 GHz
• 0.5 micron GaAs PHEMT Process
• Low Profile, Lead-Free 3 mm PQFN Package
• 100% Matte Tin Plating
• Halogen-Free “Green” Mold Compound
• RoHS* Compliant and 260°C Re-flow Compatible
Description
M/A-COM’s MASW-007813 is a GaAs PHEMT
MMIC single pole four throw (SP4T) high power
switch in a low cost, low profile, lead-free 3 mm
PQFN 16-lead package. The MASW-007813 is
ideally suited for applications where high power, low
control voltage, low insertion loss, high
isolation, small size and low cost are required.
Typical applications are for GSM and DCS handset
systems that connect separate transmit and receive
functions to a common antenna, as well as CDMA
handset and other related applications. The
MASW-007813 can be used in all systems
operating up to 3 GHz requiring high power at low
control voltage.
The MASW-007813 is fabricated using a 0.5 micron
gate length GaAs PHEMT process. The process
features full passivation for performance and
reliability.
Ordering Information 1
Part Number Package
MASW-007813-TR3000 3000 piece reel
Functional Schematic
Pin No. Pin Name Description
1 RF1 RF Port 1
2 GND RF Ground
3 GND RF Ground
4 RF2 RF Port 2
5 V2 Control 2
6 V1 Control 1
7 V4 Control 4
8 V3 Control 3
9 RF3 RF Port 3
10 GND RF Ground
11 GND RF Ground
12 RF4 RF Port 4
13 GND RF Ground
14 ANT Antenna Port
15 GND RF Ground
16 GND RF Ground
17 GND (paddle) 2 RF Ground
Pin Configuration
2. The exposed pad centered on the package bottom must be
connected to RF and DC ground.
1. Reference Application Note M513 for reel size information.
* Restrictions on Hazardous Substances, European Union Directive 2002/95/EC.
Electrical Specifications: TA = 25°C, VC = 0 V / 2.75 V, PIN = 34 dBm, Z0 = 50 Ohm
Insertion Loss 4
DC - 1 GHz 0.7db
1 - 2 GHz 0.8db
2 - 3 GHz 1.0db
Return Loss DC - 3 GHz dB — 20 —
P0.1dB 1 GHz dBm — 38 —
IP2 Two Tone, +26 dBm/Tone, 5 MHz spacing, > 50 MHz dBm — 96 —
IP3 Two Tone, +26 dBm/Tone, 5 MHz spacing, > 50 MHz dBm — 58 —
2nd Harmonic 1 GHz, Pin = +34 dBm dBc — -76 -68
3. For positive voltage control, external DC blocking capacitors are required on all RF ports.
4. Insertion loss can be optimized by varying the DC blocking capacitor value, e.g. 1000 pF for 100 MHz - 1 GHz, 39 pF for 0.5 GHz - 3 GHz.
V1 V2 V3 V4 ANT1 2 3 4
1 0 0 0 On Off Off Off
0 1 0 0 Off On Off Off
0 0 1 0 Off Off On Off
0 0 0 1 Off Off Off On
Truth Table 5,6
5. Differential voltage, V (state 1) - V (state 0), must be +2.5 V
minimum and must not exceed 8.5 V.
6. 0 = -8.5 V to 0 V, 1 = -6 V to 8.5 V
Parameter Absolute Maximum
Max Input Power
(0.5 - 3 GHz, 2.75 V Control) +38 dBm
Operating Voltage +8.5 volts
Operating Temperature -40°C to +85°C
Storage Temperature -65°C to +150°C
Rather than posting verbose technical data, you may want to tell a word about the antenna impedance and expected power level of the 13.56 MHz transmitter.
hi,FvM,thanks for your reply,my antenna impandance is 50 ohm,and power level is 35dBm,it's ok used masw-007813 in 915mhz reader ,but in 13.56mhz reader is not good.miss matching?this frequency seem don't care strictly.
Two remarks.
- You are operating the switch rather near to maximum ratings. I'm not sure if you can guarantee to keep it in case of possible antenna mismatch. Consider, that the critical parameter for the device is most likely maximum voltage.
- I assume, that you scaled the necessary decoupling capacitors at the switch ports according to your operating frequency. I would use at least several nF.
Apart from these points, the switch should perfectly work at low frequency.
hi,FvM,i used 0.1uF decoupling capacitor at the swtich output ports,is it bigger? the switch max input power is 38dBm,35 should be ok.
Added after 1 hours:
FvM,I tried to change decoupling capacitor from 4.7nF to 0.1uF,but the problem is still,and i found a strange thing:when i read card on the antenna of passed port,its effect is very bad,just only 10cm range,but the read range of other isolated ports is all the better,i measured spectrum each port,the passed port's is disorder but other ports is normal.
As you see from the M/A-Com datasheet graphs there are no specifications below 50MHz.
Take a look to their competitor, which is more realistic.
http://www.skyworksinc.com/products.aspx?CategoryID=89
vfone,i looked over the datasheet that you commended,but the max power can't meet my need. my reader output 35dBm,i need to find out the reason of current board,why it is no normal connected switch module,but very good disconnect it,why each output of switch have enough power in 13.56Mhz,used in 915Mhz is ok. very perplexing!
No, the datasheet's insertion loss specification is even including DC (obviously ignoring the coupling capacitors).
Can't give a meaningful explanation from the distance. Sounds like a basic problem, e.g. incorrect control voltage level or defective chip. You should verify the switch operation by signal generator/level measurement first. I can hardly imagine, that the problem is related to signal frequency.
FvM,thanks a lot! i verify control voltage is ok,according to the datasheet,max control voltage is 8.5V,i use 3.3v from GPIO of MCU,chip is also no problem,because i use the same switch chip that in 915Mhz transmitter,just change DC bloking capacitor from 68pF to 0.1uF,attached antenna switch file,pls help me to check the reason,thank you!
Make RF measurements.