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ZHCSMI2B november 2022 – august 2023 TRF0206-SP

PRODUCTION DATA

封裝選項

機械數據 (封裝 | 引腳)

FFM|12
- MCCC011B

散熱焊盤機械數據 (封裝 | 引腳)

訂購信息

zhcsmi2b_oa

6.5 Electrical Characteristics

Specifications correspond to the respectively identified subgroup temperature, unless otherwise noted. Test conditions at
T_A = 25°C, V_DD = 3.3 V, single-ended input with R_S = 50 Ω, differential output with Z_L = 100 Ω, unless otherwise noted.

PARAMETER		TEST CONDITIONS	SUBGROUP⁽¹⁾	MIN	TYP	MAX	UNIT
AC PERFORMANCE
SSBW	Small-signal 3-dB bandwidth	V_o = 100 mV_PP			6.5		GHz
LSBW	Large-signal 3-dB bandwidth	V_o = 1 V_PP			6.5		GHz
	Bandwidth for 1.5-dB flatness				4.8		GHz
S₂₁	Power gain	f = 2 GHz			12.5		dB
S₁₁	Input return loss	f = 10 MHz to 4 GHz			-10		dB
S₁₂	Reverse isolation	f = 10 MHz to 4 GHz			-35		dB
	Gain imbalance	f = 10 MHz to 5 GHz			±0.4		dB
	Phase imbalance	f = 10 MHz to 5 GHz			±3		°
CMRR	Common-mode rejection ratio⁽²⁾	f = 2 GHz			-30		dB
HD2	Second-order harmonic distortion	f = 0.5 GHz, P_o = +2 dBm			-65		dBc
		f = 1 GHz, P_o = +2 dBm			-60
		f = 2 GHz, P_o = +2 dBm			-60
		f = 4 GHz, P_o = +2 dBm			-60
HD3	Third-order harmonic distortion	f = 0.5 GHz, P_o = +2 dBm			-65		dBc
		f = 1 GHz, P_o = +2 dBm			-65
		f = 2 GHz, P_o = +2 dBm			-68
		f = 4 GHz, P_o = +2 dBm			-58
OP1dB	Output 1-dB compression point	f = 0.5 GHz			8.5		dBm
		f = 1 GHz			10
		f = 2 GHz			12
		f = 4 GHz			10.5
		f = 6 GHz			10
OIP2	Output second-order intercept point	f = 0.5 GHz, P_o = –5 dBm per tone, 10 MHz spacing			65		dBm
		f = 1 GHz, P_o = –5 dBm per tone, 10 MHz spacing			62
		f = 2 GHz, P_o = –5 dBm per tone, 10 MHz spacing			58
		f = 4 GHz, P_o = –5 dBm per tone, 10 MHz spacing			55
		f = 6 GHz, P_o = –5 dBm per tone, 10 MHz spacing			55
OIP3	Output third-order intercept point	f = 0.5 GHz, P_o = –5 dBm per tone, 10 MHz spacing			32		dBm
		f = 1 GHz, P_o = –5 dBm per tone, 10 MHz spacing			35
		f = 2 GHz, P_o = –5 dBm per tone, 10 MHz spacing			38
		f = 4 GHz, P_o = –5 dBm per tone, 10 MHz spacing			35
		f = 6 GHz, P_o = –5 dBm per tone, 10 MHz spacing			32
NF	Noise figure	f = 0.5 GHz			7.5		dB
		f = 1 GHz			7.5
		f = 2 GHz			8
		f = 4 GHz			9
		f = 6 GHz			9
IMPEDANCE
Z_O-DIFF	Differential output impedance	f = dc (internal to the device)			5		Ω
Z_IN	Single-ended input impedance	With INM terminated with 50 ?			50		Ω
TRANSIENT
V_OMAX	Output max operating voltage (differential)				1.7		V_PP
V_OSAT	Output saturated voltage level (differential)	f = 4 GHz			3.5		V_PP
T_REC	Over-drive recovery time	Using a 0.5-V_P input pulse of 2-ns duration			0.35		ns
POWER SUPPLY
I_QA	Active current	Current on VDD pin, PD = 0	[1, 2, 3]	85	130	170	mA
I_QPD	Power-down quiescent current	Current on VDD pin, PD = 1	[1, 2, 3]	2	7	16	mA
ENABLE
V_PDHIGH	PD pin logic high			1.55			V
V_PDLOW	PD pin logic low					0.7	V
I_PDBIAS	PD bias current (current on PD pin)	PD = high (1.8-V logic)			50	100	μA
I_PDBIAS	PD bias current (current on PD pin)	PD = low (3.3-V logic)			200	300	μA
C_PD	PD pin capacitance				3		pF
T_ON	Turn-on time	50% V_PD to 90% RF			200		ns
T_OFF	Turn-off time	50% V_PD to 10% RF			100		ns

(1) For subgroup definitions, please see Quality Conformance Inspection.

(2) CMRR is calculated using the formula (S21-S31) / (S21+S31). Port-1: INP, Port-2: OUTP, Port-3: OUTM.