Wideband Monolithic AmplifierAVM-273HP+Absolute Maximum Ratings(3)Bias Sequence and Conditions Operating Temperature (4) -40°C to 85°C NOTE: to prevent damage to the AVM-273HP+, and to ensure proper operation, all bias voltages must be applied in the following sequence for Storage Temperature -65°C to 150°C ! both Power On and for Power Off: Channel Temperature 136°C DC Voltage-Drain (Pads 11,13,15,26,28,30 ) @ VG=-0.8V (5) +6 V Power ON 1. Connect all Vg wires together (to ensure all stages are biased simultaneously). DC Voltage-Gate (Pads 10,12,14,27,29,31) @ VD=+5V (6) -6 V 2. Connect all Vd wires together (to ensure all stages are biased simultaneously). Power Dissipation 3.1 W 3. Set Vg to -2V, apply Vg 4. Set Vd to +5V, apply Vd DC Current (Pads 11,13,15,26,28,30 ) 620 mA 5. Adjust Vg until the desired Idd is reached (the typical Vg is around -0.8V). Input Power (CW) 16 dBm 6. Apply RF signal. DC Voltage on pins 19 & 20 (@VD=5V & VG=-0.8V) +10V Power OFF Notes: 1. Turn OFF RF signal 1. Measured on Mini-Circuits Test Board TB-715-5V. See Characterization Test Circuit (Fig. 1), 2. Set Vg to -2.0V See cautionary note ! 3. Turn OFF Vd (Vd to 0V) 2. (Current at 85°C - Current at -45°C)/130 4. Turn OFF Vg (Vg to 0V) 3. Permanent damage may occur if any of these limits are exceeded. These maximum ratings are not intended for continuous normal operation. ALTERNATELY – VCM-1+ module provide voltage sequencing and DC control 4. Defined with reference to ground pad temperature. automatically. 5. VG=VG1, VG2, VG3 (A&B) 6. VD= VD1, VD2, VD3 (A&B) Following these requirements are required for proper operation and are a condi-tion of Mini-Circuits Warranty.Simplified Schematic and Pad Description Notes: H - 90° Hybrid M - Matching Network FunctionPadNumberDescription (See Application Circuit)FunctionPadNumberDescription (See Application Circuit) RF-In 4,5 RF Input VG1 B 10 Gate Voltage of first stage amplifier (Bottom) RF-Out 19,20 RF-Output (DC blocked) VG2 B 12 Gate Voltage of second stage amplifier (Bottom) VG1 A 31 Gate Voltage of first stage amplifier (Top) VG3 B 14 Gate Voltage of third stage amplifier (Bottom) VG2 A 29 Gate Voltage of second stage amplifier (Top) VD1 B 11 Drain Voltage of first stage amplifier (Bottom) VG3 A 27 Gate Voltage of third stage amplifier (Top) VD2 B 13 Drain Voltage of second stage amplifier (Bottom) VD1 A 30 Drain Voltage of first stage amplifier (Top) VD3 B 15 Drain Voltage of third stage amplifier (Bottom) VD2 A 28 Drain Voltage of second stage amplifier (Top) Notes NC 1-3, 6-9, 16-18, No Connection, not used internally A. Performance and quality attributes and conditions not expr VD3 A 26 essly stated in this specification document ar Drain Voltage of third stage amplifier (Top) e intended to be excluded and do not form a part of this specification document. 21-25, 32 B. Electrical specifications and performance data contained in this specification document are based on Mini-Circuit’s applicable established test performance criteria and measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits standard limited warranty and terms and conditions (collectively, “Standard Terms”); Purchasers of this part are entitled to the rights and benefits contained therein. For a full statement of the Standard Terms and the exclusive rights and remedies thereunder, please visit Mini-Circuits’ website at www.minicircuits.com/MCLStore/terms.jsp Mini-Circuits ® www.minicircuits.com P.O. Box 350166, Brooklyn, NY 11235-0003 (718) 934-4500 sales@minicircuits.com Page 4 of 7 Document Outline AVM-273HP+ Data Sheet View Data View Graphs Case Style PCB Layout Eval Board Enviromental Ratings