at temperature = 25°C, VDD = 3.3 V, 50-Ω single-ended input, and 100-Ω differential output (unless otherwise noted)
Figure 6-39 Power
Gain Across Temperature
Figure 6-41 Return Loss Across
Temperature
Figure 6-43 Reverse Isolation Across
Temperature![TRF1208 OIP3 Across
Temperature GUID-20230321-SS0I-C6S2-TFDC-WG4RPJ4KFG1S-low.svg](/ods/images/SBOS972C/GUID-20230321-SS0I-C6S2-TFDC-WG4RPJ4KFG1S-low.svg)
Pout /tone = –4 dBm, 10 MHz tone
spacing |
Figure 6-45 OIP3 Across
Temperature![TRF1208 IMD3 Lower Across
Temperature GUID-20230321-SS0I-MR5Q-KV7C-23KXJRXJFHZG-low.svg](/ods/images/SBOS972C/GUID-20230321-SS0I-MR5Q-KV7C-23KXJRXJFHZG-low.svg)
At
(2f1-f2) frequency,
f1 < f2; Pout
/tone = –4 dBm, 10 MHz tone spacing |
Figure 6-47 IMD3 Lower Across
Temperature![TRF1208 IMD3 Higher Across
Temperature GUID-20230321-SS0I-QGBT-RQSQ-FVMXKR9T9SS4-low.svg](/ods/images/SBOS972C/GUID-20230321-SS0I-QGBT-RQSQ-FVMXKR9T9SS4-low.svg)
At
(2f2-f1) frequency,
f1 < f2; Pout
/tone = –4 dBm, 10 MHz tone spacing |
Figure 6-49 IMD3 Higher Across
Temperature![TRF1208 OIP2 Lower Across
Temperature GUID-20230321-SS0I-PBSR-CWQH-RZS7QPBVGBBP-low.svg](/ods/images/SBOS972C/GUID-20230321-SS0I-PBSR-CWQH-RZS7QPBVGBBP-low.svg)
At
(f2-f1) frequency,
f2 > f1; Pout
/tone = -4 dBm, 10 MHz tone spacing |
Figure 6-51 OIP2 Lower Across
Temperature![TRF1208 OIP2 Higher Across
Temperature GUID-20230321-SS0I-VN84-W4LL-K0VQB8Q2L2TG-low.svg](/ods/images/SBOS972C/GUID-20230321-SS0I-VN84-W4LL-K0VQB8Q2L2TG-low.svg)
At
(f2+f1) frequency,
f2 > f1; Pout
/tone = –4 dBm, 10 MHz tone spacing |
Figure 6-53 OIP2 Higher Across
Temperature![TRF1208 IMD2 Lower Across
Temperature GUID-20230321-SS0I-9JGJ-90K7-1FVPKT8CQ03P-low.svg](/ods/images/SBOS972C/GUID-20230321-SS0I-9JGJ-90K7-1FVPKT8CQ03P-low.svg)
At
(f2-f1) frequency,
f2 > f1; Pout
/tone = –4 dBm, 10 MHz tone spacing |
Figure 6-55 IMD2 Lower Across
Temperature![TRF1208 IMD2 Higher Across
Temperature GUID-20230321-SS0I-ZMHH-XTB1-LLSTVWPKXWZH-low.svg](/ods/images/SBOS972C/GUID-20230321-SS0I-ZMHH-XTB1-LLSTVWPKXWZH-low.svg)
At
(f2+f1) frequency,
f2 > f1; Pout
/tone = –4 dBm, 10 MHz tone spacing |
Figure 6-57 IMD2 Higher Across
Temperature
Figure 6-59 HD2 Across
Temperature
Figure 6-61 HD3 Across
Temperature
Figure 6-63 HD2 vs Output Power
Figure 6-65 Output P1dB Across
Temperature
Figure 6-67 NF Across
Temperature
Figure 6-69 Gain Imbalance
Figure 6-71 CMRR Across
Temperature![TRF1208 Overdrive Recovery GUID-20230323-SS0I-PPLD-BMH8-L3J3S95KNXZX-low.svg](/ods/images/SBOS972C/GUID-20230323-SS0I-PPLD-BMH8-L3J3S95KNXZX-low.svg)
Input = +8 dBm, f = 500 MHz |
Figure 6-73 Overdrive Recovery
Figure 6-75 Single-Ended S11
Figure 6-40 Power Gain Across VDD
Figure 6-42 Return Loss Across VDD
Figure 6-44 Reverse Isolation Across VDD![TRF1208 OIP3 Across VDD GUID-20230321-SS0I-FXGG-NTNB-VM58X4VPRLRS-low.svg](/ods/images/SBOS972C/GUID-20230321-SS0I-FXGG-NTNB-VM58X4VPRLRS-low.svg)
Pout /tone = –4 dBm, 10 MHz tone
spacing |
Figure 6-46 OIP3 Across VDD![TRF1208 IMD3 Lower Across VDD GUID-20230321-SS0I-9ZTQ-6KH9-FC9PRX0WGQVP-low.svg](/ods/images/SBOS972C/GUID-20230321-SS0I-9ZTQ-6KH9-FC9PRX0WGQVP-low.svg)
At (2f1-f2) frequency,
f1 < f2; Pout
/tone = –4 dBm, 10 MHz tone spacing |
Figure 6-48 IMD3 Lower Across VDD![TRF1208 IMD3 Higher Across VDD GUID-20230321-SS0I-N33B-2LPV-SXJCNTTBDCMS-low.svg](/ods/images/SBOS972C/GUID-20230321-SS0I-N33B-2LPV-SXJCNTTBDCMS-low.svg)
At (2f2-f1) frequency,
f1 < f2; Pout
/tone = –4 dBm, 10 MHz tone spacing |
Figure 6-50 IMD3 Higher Across VDD![TRF1208 OIP2 Lower Across VDD GUID-20230321-SS0I-4G9H-SNZP-3FG0BWJQGQ5N-low.svg](/ods/images/SBOS972C/GUID-20230321-SS0I-4G9H-SNZP-3FG0BWJQGQ5N-low.svg)
At (f2-f1) frequency,
f2 > f1; Pout
/tone = –4 dBm, 10 MHz tone spacing |
Figure 6-52 OIP2 Lower Across VDD![TRF1208 OIP2 Higher Across VDD GUID-20230321-SS0I-TR7W-PPDV-WLMB0RWPGDLT-low.svg](/ods/images/SBOS972C/GUID-20230321-SS0I-TR7W-PPDV-WLMB0RWPGDLT-low.svg)
At (f2+f1) frequency,
f2 > f1; Pout
/tone = –4 dBm, 10 MHz tone spacing |
Figure 6-54 OIP2 Higher Across VDD![TRF1208 IMD2 Lower Across VDD GUID-20230321-SS0I-BTCF-KLVL-K6VVG9QRDD3P-low.svg](/ods/images/SBOS972C/GUID-20230321-SS0I-BTCF-KLVL-K6VVG9QRDD3P-low.svg)
At (f2-f1) frequency,
f2 > f1; Pout
/tone = –4 dBm, 10 MHz tone spacing |
Figure 6-56 IMD2 Lower Across VDD![TRF1208 IMD2 Higher Across VDD GUID-20230321-SS0I-MFTV-DPWK-MVNND1QKDCDV-low.svg](/ods/images/SBOS972C/GUID-20230321-SS0I-MFTV-DPWK-MVNND1QKDCDV-low.svg)
At (f2+f1) frequency,
f2 > f1; Pout
/tone = –4 dBm, 10 MHz tone spacing |
Figure 6-58 IMD2 Higher Across VDD
Figure 6-60 HD2 Across VDD
Figure 6-62 HD3 Across VDD
Figure 6-64 HD3 vs Output Power
Figure 6-66 Output P1dB Across VDD
Figure 6-68 NF Across VDD
Figure 6-70 Phase Imbalance
Figure 6-72 CMRR Across VDD
Figure 6-74 Saturation Voltage
Figure 6-76 Differential S22