TRIQUINT TGA4823-2-SM

TGA4823-2-SM
9.9 - 12.5 Gb/s Linear/Limiting Optical Modulator Driver
Key Features
•
•
•
•
•
•
•
•
Measured Performance
Up to 10 Vpp Linear Output Voltage
> 12 Vpp Limiting Mode Output Voltage
Gain: 19 dB
Integrated High Frequency Bias Tee
Internal DC blocks
Single-ended Input / Output
Bias: Vd = 8 V, Id = 310 mA, Vctrl = +1 V,
Vg = -0.3 V Typical for Linear operation
Package Dimensions: 8 x 8 x 2.1 mm
Primary Applications
Bias conditions: Vd = 8 V, Id = 310 mA, Vctrl = +1 V,
Vg ≈ -0.3 V Typical
PRBS = 231-1; CPC = 50%, 10.7 GB/s; Vin = 1Vpp
•
Mach-Zehnder Modulator Driver for Metro and
Long Haul
Product Description
The TriQuint TGA4823-2-SM is part of a series of
optical driver amplifiers suitable for a variety of
driver applications.
The TGA4823-2-SM is a high power wideband
AGC amplifier that typically provides 19 dB small
signal gain with 19 dB AGC range.
The TGA4823-2-SM is an excellent choice for
applications requiring high drive combined with
high linearity. The TGA4823-2-SM has
demonstrated capability to deliver 10Vpp while
maintaining output harmonic levels near -30dBc for
a 2GHz fundamental.
The TGA4823-2-SM requires a low frequency
choke and control circuitry.
RoHS compliant and Lead-Free finish. MSL1 per
IPC/JEDEC J-STD-020C . Evaluation boards
available on request.
1
TriQuint Semiconductor: www. triquint.com (972)994-8465 Fax (972)994-8504 [email protected]
May 2012 © Rev C
TGA4823-2-SM
Table I
Absolute Maximum Ratings 1/
Symbol
Parameter
Vd-Vg
Value
Notes
Drain to Gate Voltage
12 V
Vd
Drain Voltage
9V
2/
Vg
Gate Voltage Range
-5 to 0 V
2/
Control Voltage Range
-1 to +2 V
2/
400 mA
2/
Vctrl
Id
Drain Current
Ig
Gate Current Range
-1.8 to 18.9 mA
Ictrl
Control Current Range
-1.8 to 18.9 mA
Pin
Input Continuous Wave Power
Tchannel
27.8 dBm
Channel Temperature
200 °C
2/
1/
These ratings represent the maximum operable values for this device. Stresses beyond those listed
under “Absolute Maximum Ratings” may cause permanent damage to the device and / or affect
device lifetime. These are stress ratings only, and functional operation of the device at these
conditions is not implied.
2/
Combinations of supply voltage, supply current, input power, and output power shall not exceed the
maximum power dissipation listed in Table IV.
Table II
Recommended Linear Operating Conditions
Symbol
Value
Vd
Drain Voltage
8V
Id
Drain Current
310 mA
Drain Current under RF Drive
350 mA
Id_Drive
Vg
Vctrl
1/
Parameter 1/
Typical Gate Voltage
-0.3 V
Control Voltage
1V
See assembly diagram for bias instructions.
2
TriQuint Semiconductor: www. triquint.com (972)994-8465 Fax (972)994-8504 [email protected]
May 2012 © Rev C
Table III
TGA4823-2-SM
RF Characterization Table
Bias: Vd = 8 V, Id = 310 mA, Vctrl = +1 V, Vg = -0.3 V, typical
SYMBOL
PARAMETER
TEST
CONDITIONS
MIN
NOMINAL
MAX
UNITS
Gain
Small Signal Gain
f = 1.5 – 2.5 GHz
f = 0.1 – 4 GHz
f = 6 GHz
f = 8 GHz
18.5
-
20
20
19
18
23
-
dB
3dB BW
Small Signal 3 dB
Bandwidth
1/
f = 0.1 – 12 GHz
7.5
9.5
-
GHz
IRL
Input Return Loss
f = 0.1 – 7GHz
f = 7.1 – 10 GHz
f = 10.1 – 16 GHz
-
15
15
9
-
dB
ORL
Output Return Loss
f = 0.1 – 4 GHz
f = 4.1 – 7 GHz
f = 7.1 – 11 GHz
f = 11.1 – 16 GHz
-
15
15
15
12
-
dB
Gain Ripple
S21 peak-peak gain
variation
2/
f = 0.1 – 0.5 GHz
f = 0.6 – 5 GHz
f = 5.1 – 10 GHz
-0.8
-1.2
-3
0.8
1.2
3
dB
DLP
Deviation from S21
Linear Phase
f = 2 – 10 GHz
f = 10.1 – 15 GHz
-40
-175
+/- 30
+/- 150
40
175
deg
P2
2nd Harmonic
f = 0.5, 2.0, 5.0 GHz
Pout = 22 dBm
-
-
-22
dBc
P3
3rd Harmonic
f = 0.5, 2.0, 5.0 GHz
Pout = 22 dBm
-
-
-26
dBc
Psat
Saturated Output
Power
f = 2 GHz
-
26
( 12.5)
-
dBm
(Vpp)
P1dB
Output Power @
1dB Compression
f = 2 GHz
-
25
-
dBm
AGC Range
Small Signal AGC
Range
-
19
-
dB
1/
Fit the S21 curve to 4th order polynomial. AssignAve gain = |S21| measured between 1.5 and 2.5
GHz. Determine 3dB point from polynomial fit to S21 curve.
2/
Ripple cacluation is defined the difference between measured S21 value (dB) and a 4th order (or less)
polynomial fit for S21 (dB) for frequency range = 0.1 to 12 GHz.
3
TriQuint Semiconductor: www. triquint.com (972)994-8465 Fax (972)994-8504 [email protected]
May 2012 © Rev C
TGA4823-2-SM
Table IV
Power Dissipation and Thermal Properties
Parameter
Value
Notes
Tbaseplate = 70 °C
Pd = 3.17 W
Tchannel = 150 °C
Tm = 1.0E+6 Hrs
1/ 2/
Thermal Resistance, θjc
Vd = 8 V
Id = 310 mA
Pd = 2.48 W
θjc = 24.3 (°C/W)
Tchannel = 130 °C
Tm = 5.8E+6 Hrs
Thermal Resistance, θjc
Under RF Drive
Vd = 8 V
Id = 350 mA
Pout = 26.5 dBm
Pd = 2.36 W
θjc = 24.3 (°C/W)
Tchannel = 127 °C
Tm = 7.6E+6 Hrs
Maximum Power Dissipation
1/
Test Conditions
Mounting Temperature
Refer to Solder Reflow
Profiles (pp16)
Storage Temperature
-65 to 150 °C
For a median life of 1E+6 hours, Power Dissipation is limited to
Pd(max) = (150 °C – Tbase °C)/θjc.
2/
Channel operating temperature will directly affect the device median time to failure (MTTF). For
maximum life, it is recommended that channel temperatures be maintained at the lowest possible
levels.
Median Lifetime (Tm) vs. Channel Temperature
4
TriQuint Semiconductor: www. triquint.com (972)994-8465 Fax (972)994-8504 [email protected]
May 2012 © Rev C
Measured Data
TGA4823-2-SM
Bias conditions: Vd = 8 V, Id = 310 mA, Vctrl = +1 V, Vg ≈ -0.3 V Typical
5
TriQuint Semiconductor: www. triquint.com (972)994-8465 Fax (972)994-8504 [email protected]
May 2012 © Rev C
Measured Data
TGA4823-2-SM
Bias conditions: Vd = 8 V, Id = 310 mA, Vctrl = +1 V, Vg ≈ -0.3 V Typical
6
TriQuint Semiconductor: www. triquint.com (972)994-8465 Fax (972)994-8504 [email protected]
May 2012 © Rev C
Measured Data
TGA4823-2-SM
Bias conditions: Vd = 8 V, Id = 310 mA, Vctrl = +1 V, Vg ≈ -0.3 V Typical
Freq = 2 GHz
7
TriQuint Semiconductor: www. triquint.com (972)994-8465 Fax (972)994-8504 [email protected]
May 2012 © Rev C
Measured Data
TGA4823-2-SM
Linear Mode:
Bias conditions: Vd = 8 V, Id = 310 mA, Vctrl = +1 V, Vg ≈ -0.3 V Typical
PRBS = 231-1; CPC = 50%, 10.7 GB/s
Input Eye: Vin = 250 mVpp
Output Eye: Vin = 250 mVpp, Vopp = 2.5 Vpp
Input Eye: Vin = 500 mVpp
Output Eye: Vin = 500 mVpp, Vopp = 5 Vpp
8
TriQuint Semiconductor: www. triquint.com (972)994-8465 Fax (972)994-8504 [email protected]
May 2012 © Rev C
Measured Data
TGA4823-2-SM
Linear Mode:
Bias conditions: Vd = 8 V, Id = 310 mA, Vctrl = +1 V, Vg ≈ -0.3 V Typical
PRBS = 231-1; CPC = 50%, 10.7 GB/s
Input Eye: Vin = 1 Vpp
Output Eye: Vin = 1 Vpp, Vopp = 9.3 Vpp
9
TriQuint Semiconductor: www. triquint.com (972)994-8465 Fax (972)994-8504 [email protected]
May 2012 © Rev C
Measured Data
TGA4823-2-SM
Limiting Mode:
Bias conditions: Vd = 8 V, Id = 310 mA, Vctrl = +1 V, Vg ≈ -0.3 V Typical
PRBS = 231-1; CPC = 50%, 10.7 GB/s
Input Eye: Vin = 1700 mVpp
Output Eye: Vin = 1700 Vpp, Vopp = 4.2 Vpp
Output Eye: Vin = 1700 Vpp, Vopp = 8.3 Vpp
Output Eye: Vin = 1700 Vpp, Vopp = 11 Vpp
10
TriQuint Semiconductor: www. triquint.com (972)994-8465 Fax (972)994-8504 [email protected]
May 2012 © Rev C
TGA4823-2-SM
Electrical Schematic
Bias Procedures
Vd=8V, CPC=50%
Bias ON
Bias OFF
1. Disable the output of the PPG
1. Disable the output of the PPG
2. Set Vd = 0V, Vctrl = 0V & Vg = 0V
2. Set Vctrl = 0V
3. Set Vg = -1.5V
3. Set Vd = 0V
4. Increase Vd to 8V observing Id
- Assure Id = 0mA
4. Set Vg = 0V
5. Set Vctrl = +1V
- Id should still be 0mA
6. Make Vg more positive until Id = 310mA.
Vg will be approximately -0.3V.
7. Enable the output of the PPG.
8. Output Swing Adjust: Adjust Vctrl slightly positive to increase output swing or
adjust Vctrl slightly negative to decrease the output swing.
9. Crossover Adjust: Adjust Vg slightly positive to push the crossover down or
adjust Vg slightly negative to push the crossover up.
11
TriQuint Semiconductor: www. triquint.com (972)994-8465 Fax (972)994-8504 [email protected]
May 2012 © Rev C
TGA4823-2-SM
Recommended Application Circuit
GaAs MMIC devices are susceptible to damage from Electrostatic Discharge. Proper precautions should
be observed during handling, assembly and test.
TriQuint Semiconductor: www. triquint.com (972)994-8465 Fax (972)994-8504 [email protected]
May 2012 © Rev C
12
TGA4823-2-SM
Recommended Assembly Diagram
RFout
RFin
TGA4823-2-SM
VD
VD_Bypass
VCTRL
VG
GaAs MMIC devices are susceptible to damage from Electrostatic Discharge. Proper precautions should
be observed during handling, assembly and test.
TriQuint Semiconductor: www. triquint.com (972)994-8465 Fax (972)994-8504 [email protected]
May 2012 © Rev C
13
TGA4823-2-SM
Package Pinout
28
27
26
25
24
23
22
22
23
24
25
26
27
28
Pin 1
indicator
1
21
21
1
2
20
20
2
3
19
19
3
4
18
18
5
17
17
5
6
16
16
6
7
15
15
7
8
9
10
11
12
13
14
14
Pin
Description
1,2,3,5,6,7,8,9,10,
11,13,14,15,16,18,
19,20,21,22,
23,25,28
N/C
4
RF In
12
Vg
17
RF Out
24
Vd
26
Vd_Bypass
25, 27
Vctrl
29
GND
4
29
13
12
11
10
9
8
14
TriQuint Semiconductor: www. triquint.com (972)994-8465 Fax (972)994-8504 [email protected]
May 2012 © Rev C
Mechanical Drawing
Units: Millimeters
TGA4823-2-SM
TGA4823-2
YYWW ZZZ
DXXXXXXX
Part Markings:
YY = Assembly year, WW= Assembly week, ZZZ = Serial Number, DXXXXXXX = Batch ID
Package base
Package lid
Materials:
Aluminum Nitride (AlN)
White Alumina (Al2 03)
Pad finish on package base:
Electroless gold (Au) 0.5 – 1.0 um
Over
Electroless nickel (Ni) 2.0 um min.
GaAs MMIC devices are susceptible to damage from Electrostatic Discharge. Proper precautions should
be observed during handling, assembly and test.
TriQuint Semiconductor: www. triquint.com (972)994-8465 Fax (972)994-8504 [email protected]
May 2012 © Rev C
15
TGA4823-2-SM
Assembly Notes
Recommended Surface Mount Package Assembly
• Proper ESD precautions must be followed while handling packages.
• Clean the board with acetone. Rinse with alcohol. Allow the circuit to fully dry.
• TriQuint recommends using a conductive solder paste for attachment. Follow solder paste and reflow
oven vendors’ recommendations when developing a solder reflow profile. Typical solder reflow profiles
are listed in the table below.
• Hand soldering is not recommended. Solder paste can be applied using a stencil printer or dot
placement. The volume of solder paste depends on PCB and component layout and should be well
controlled to ensure consistent mechanical and electrical performance.
• Clean the assembly with alcohol.
Typical Solder Reflow Profiles
Reflow Profile
SnPb
Pb Free
Ramp-up Rate
3 °C/sec
3 °C/sec
Activation Time and Temperature
60 – 120 sec @ 140 – 160 °C
60 – 180 sec @ 150 – 200 °C
Time above Melting Point
60 – 150 sec
60 – 150 sec
Max Peak Temperature
240 °C
260 °C
Time within 5 °C of Peak Temperature
10 – 20 sec
10 – 20 sec
Ramp-down Rate
4 – 6 °C/sec
4 – 6 °C/sec
Ordering Information
Part
Package Style
TGA4823-2-SM
8x8 Surface Mount
GaAs MMIC devices are susceptible to damage from Electrostatic Discharge. Proper precautions should
be observed during handling, assembly and test.
16
TriQuint Semiconductor: www. triquint.com (972)994-8465 Fax (972)994-8504 [email protected]
May 2012 © Rev C