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Gain Block Specification Selection Guide
Output Power
(Pout, P1dB, Psat, IP3, TOI, IP3 O, IP3 I, IM3, etaadd, etac)

  -----------------------------------High Power-----------------------------------
  HMMC-5004 25 dBm
  HPMX-3003 23.5 dBm
  MSA-0520 23 dBm
  HPMX-3002 22 dBm
  MGA-835xx 22 dBm
  MSA-05xx 18 dBm
  HMMC-5003 17.5 dBm
  MSA-11xx 17 dBm
  MGA-825xx 17 dBm
  MGA-725xx 11 dBm to 17 dBm
  ------------------------------Moderate Power------------------------------
  MSA-04xx 16 dBm
  MGA-815xx 14 dBm
  MSA-08xx 12 dBm
  MGA-641xx 12 dBm
  MSA-04xx 12 dBm
  HMMC-5200 12 dBm
  HMMC-5220 12 dBm
  MSA-99xx 11 dBm
  MSA-09xx 11 dBm
  INA-01xxx 11 dBm
  INA-02xxx 11 dBm
  INA-10xxx 10 dBm
  MSA-21xx 10 dBm
  MSA-03xx 10 dBm
  INA-54xxx 9 dBm
  MSA-20xx 9 dBm
  MSA-31xx 9 dBm
  MGA-855xx 1 - 9 dBm
  INA-34xxx 8 dBm
  INA-52xxx 8 dBm
  --------------------------------Small Signal--------------------------------
  MGA-865xx 6 dBm
  MSA-07xx 5.5 dBm
  INA-32xxx 5 dBm
  MSA-02xx 4.5 dBm
  MSA-06xx 2 dBm
  MSA-01xx 1.5 dBm
  INA-03xxx 1 dBm
  INA-50xxx 0 dBm
  INA-12xxx 0 dBm
  MGA-875xx 0 dBm
  INA-31xxx -2 dBm
  IVA-14xxx -2 dBm
  INA-51xxx -2.5 dBm
  IVA-05xxx -3 dBm
  --------------------------------Micro Power--------------------------------
  INA-30xxx -11 dBm
    -15       -10         -5         0         5         10         15         20         25         30  
  Gain [dB]  

An indication of the amount of output power a device can produce. Output power capability is usually expressed in terms of P1dB, the output power at 1 dB gain compression, in dBm.
P 1dB represents an upper limit for the linear power a device can produce. The power producing capability of the amplifier must be sufficient to avoid saturation and distortion (unless the amplifier is being used as a limiter). To a first order approximation output power is flat vs. frequency. Power is also linked to bias point: to generate output power the device must be able to swing a suitable amount of current and voltage across the output load impedance. Therefore a device must be operated at a high enough bias to produce the desired power. Note that P1dB is typically quoted at a higher bias level than NF.

From the point of view of linearity, more P 1dB is better. However, since a higher P 1dB comes at the cost of higher operating current and reduced efficiency, P 1dB should be matched to the needs of the application.

-15 dBm to +35 dBm (3 Watt)


Designers may also be interested in other related specifications such as Psat, IP3, IP3i, IM3, and etaadd. These can be estimated from P1dB using the following :

Psat (saturated power out) is the maximum power a device can deliver regardless of distortion.

Psat ~ P1dB + 3 dBm

IP3 (third order intercept point, also abbreviated TOI) is a reference number used to calculate intermodulation distortion. It may be referenced to the device output (IP3 O) or input (IP3 I). The estimation below is on the conservative side; IP3s are commonly 15 dB above P1dB for HBT and designed-for-linearity FET and BJT products.

IP3 O ~ P1dB + 10 dBm.

IP3i (third order intercept point referred to the input) indicates how much drive the IC can tolerate before it starts to distort significantly.

IP3i = IP3 - Gp

IM3 (third order intermodulation product level) is usually the largest in-band intermodulation distortion product. The magnitude of IM3 in dBm can be approximated by

IM3 = IP3-3[IP3 -Pout] [everything in dBm]

IM values are often expressed in dBc; to convert an IM level in dBm to dBc take the difference between the Pout level (in dBm) and the IM level (in dBm). Expressed in terms of IP3 and Pout this reduces to

IM3 in dBc = 2 [IP3 -Pout]

Note that at Pout = P1dB this predicts a IM3 level of -20 dBc.

Power added efficiency (eta add needs to be high for battery operated systems for best battery life. Values in the 40% range are excellent with 50% being the theoretical maximum for a linear (Class A) amplifier. Values in the 10% range are common for small signal gain blocks.

eta add = [Pout-Pin] / [Vd * Id]

For parts with significant gain (>10 dB) eta add can be replaced with collector efficiency:

eta c = [Pout] / [Vd * Id]

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this page last updated: 1 October 1999