AMGP-6551-TR2G

AMGP-6551 40.5 – 43.5 GHz SMT Packaged Up-Converter Data Sheet Description Features The AMGP-6551 is a surface mount packaged broadband Up-converter that combines a sub-harmonic, SSB mixer with a variable gain amplifier. It is designed for use at frequencies between 37.5 GHz and 43.5 GHz and provides 10 dB of conversion gain with >20 dB gain control dynamic range. This Up-converter required +20 dBm LO drive level, and it supports IF from DC to 3 GHz. OIP3 of +20 and +16 dBm are achieved at 40.5 and 43.5 GHz respectively.  5 x 5 mm surface mount package 2 3 8 4 7 6 5  LO frequency range from 18.5 to 23.5 GHz  IF frequency range from DC to 3 GHz  +20 dBm LO driver power  10 dB Conversion Gain  20 dB Dynamic Range Functional Block Diagram 1  RF frequency range from 40.5 to 43.5 GHz  +20 dBm Output IP3 @ 40.5 GHz, and +16 dBm @ 43.5 GHz Pin Function 1 IF1  Vdd = 3.5 V and Idd = 300 mA 2 Vd1  1 to 0 V Control voltage (Vc) 3 IF2 4 RF_OUT 5 Vd3 6 Vc 7 Vd2 8 RF_IN Application  Microwave Radio Systems Package Diagram IF1 1 Attention: Observe Precautions for handling electrostatic sensitive devices. ESD Machine Model: 30 V ESD Human Body Model: 150 V Refer to Avago Application Note A004R: Electrostatic Discharge Damage and Control. LO Vd1 IF2 2 3 GND 8 7 Vd2 6 4 5 Vc Vd3 RF ELECTRICAL SPECIFICATIONS Table 1. Absolute Minimum and Maximum Ratings Parameter Description Supply Voltage Control Voltage LO Input Power MSL Channel Temperature Storage Temperature Specifications Min. Vd Vc LO -3 -45 Max. Unit 5 +1.5 24 MSL2A 150 150 V V dBm Comments °C °C Table 2. Recommended Operating Range Parameter Description Pin Specifications Min. Typical Max. Unit Supply Voltage Control Voltage Vd Vc 3.0 -1 4.0 0 V V Frequency Range RF LO IF 40.5 18.5 DC +18 43.5 23.5 3 +22 GHz LO Power Bias Current Thermal Resistance, ch-b Case Temperature ESD Human Body Model Machine Model 3.5 +20 300 18.8 -40 +85 150 < 30 Comments Vc = -1 V for Max. Gain Vc = 0 V for Min. Gain dBm mA °C/W °C V V HBM Class 0 is ESD < 250 V MM Class A is ESD < 200 V This product is highly sensitive to esd damage Table 3. RF Electrical Characteristics All data measured on Connectorized Taconic RF-35A2 demo board at Vd = 5 V, TA = 25° C, IF = 1.8 GHz @ -10 dBm, LO = +20 dBm, Upper Side Band (RF = IF + 2*LO) and 50  at all ports, unless otherwise specified. Return Loss measurement includes effect of connector + PCB. Performance (40.5 – 43.5 GHz) Min. Typ. Max. Unit Comments RF = 40.5 GHz RF = 42 GHz RF = 43.5 GHz 8 dB (@ Vc = -1 V) RF = 40.5 GHz RF = 42 GHz RF = 43.5 GHz +4.5 Parameter Max. Conversion Gain Gain Dynamic Range Input IP3 Sideband REjection LO-RF Isolation 2*LO Leak. @RF Port RF Return Loss IF Return Loss LO Return Loss 2 10.79 12.07 9.87 24 8.99 5.18 9.59 15 15 10 12 12 8 dB dBm dBc dB dBc dB dB dB IF = 10 MHz, IF Input -10 dBm/Tone In max gain state Product Consistency Distribution Charts at 40.5 GHz, 42 GHz and 43.5 GHz, Vdd = 5 V, VC = -1 V, LO = 21 dBm, IF = -5 dBm (Sample size of 2,000 pieces) LSL LSL 7 8 9 10 11 12 13 14 15 CV Gain @ 40.5 Ghz, Mean = 10.79 dB, LSL = 8 dB 7 8 9 10 11 12 13 14 15 4 12 13 14 15 5 6 7 8 9 10 11 12 10 11 12 LSL 6 7 8 9 IIP3 @ 42 Ghz, Mean = 5.18 dBm, LSL = 4.5 dBm 3 11 IIP3 @ 40.5 Ghz, Mean = 8.99 dBm, LSL = 4.5 dBm LSL 5 10 LSL CV Gain @ 43.5 Ghz, Mean = 9.87 dB, LSL = 8 dB 4 9 CV Gain @ 42 Ghz, Mean = 12.07 d , LSL = 8 dB LSL 7 8 10 11 12 4 5 6 7 8 9 IIP3 @ 43.5 Ghz, Mean = 9.59 dBm, LSL = 4.5 dBm Selected performance plots All data measured on Connectorized Taconic RF-35A2 demo board at Vd = 5 V, TA = 25° C, IF = 1.8 GHz @ -10 dBm, LO = +20 dBm, Upper Side Band (RF = IF + 2*LO) and 50  at all ports, unless otherwise specified. Return Loss measurement includes effect of connector + PCB. Figure 1. LSB Conversion Gain vs Control Voltage Figure 2. USB Conversion Gain vs Control Voltage Figure 3. Conversion Gain (max and min gain) Figure 4. Conversion Gain vs. Control Voltage Figure 5. LSB Output IP3 vs Control Voltage Figure 6. USB Output IP3 vs Control Voltage 4 Figure 7. USB Conversion Gain vs Temperature (min and max gain) Figure 8. USB Output IP3 vs Temperature (min and max gain) Figure 9. USB Conversion Gain vs. Temperature at 38.5 GHz Figure 10. USB Conversion Gain vs. Temperature at 42 GHz Figure 11. USB Output IP3 vs. Temperature at 38.5 GHz Figure 12. USB Output IP3 vs. Temperature at 42 GHz 5 Figure 13. USB Conversion Gain @ LO = 18-22 dBm with Vc = -1 V Figure 14. USB Output IP3 vs RF Freq. @ Vd = 4.5-5.5 V step 0,5 V Figure 15. USB OIP3 vs. Control Voltage (Vc) with RF = 37-43.5 GHz Figure 16. USB Output IP3 vs. RF Freq. @ LO = 18-22 dBm with Vc = -1 V Figure 17. USB Output IP3 & Conversion gain vs. Control Voltage Figure 18. Over Temp. LO Rejection @ RF-port 6 Figure 19. 2*LO Rejection @ RF-port Figure 20. USB Sideband Rejection at 25° C Figure 21. LSB Sideband Rejection at 25° C Figure 22. RF Output Return Loss vs. Control Voltage @ 25° C Figure 23. IF Input Return Loss vs. Frequency Figure 24. LO Input Return Loss with LO = +20 dBm 7 Evaluation Board Description Table 4. Pin Description 0/90° 90/0° Pin # Function Typical Comment 1 Vd1 3.5 100 mA 2 GND 3 GND 4 Vd2 3.5 100 mA 5 Vc -1 to 0 V < 1 mA 6 Vd3 3.5 100 mA 7 GND 8 GND Demo board circuit IF1 IF2 1 LO AMGP 6551 YWWDNN RF Notes: 1. IF can be applied to either IN or Isolation port of a passive Hybrid. 2. If IF is applied to IN port, terminate Isolation port with 50 ohm 3. If IF is applied to Isolation port, terminate IN port with 50 ohm 4. Switching the IF input from In port to Isolation port or vice versa RF can be switched to LSB or USB 2 3 4 5 6 7 8 Package Dimension, PCB Layout and Tape and Reel information Part Number Ordering Information Please refer to Avago Technologies Application Note 5521, AMxP-xxxx production Assembly Process (Land Pattern B). Part Number Devices per Container Container AMGP-6551-BLKG 10 antistatic bag AMGP-6551-TR1G 100 7” Reel AMGP-6551-TR2G 500 7” Reel For product information and a complete list of distributors, please go to our web site: www.avagotech.com Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries. Data subject to change. Copyright © 2005-2012 Avago Technologies. All rights reserved. AV02-3211EN - May 10, 2012