HC-DSL09S0P1T2 136–941 MHz, 0.15W, 3.7 V BroadBand RF Power Transistor

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Подробная информация о продукции

N-Channel Enhancement-Mode MOSFET

Designed for handheld two–way radio applications with frequencies from 136 to 941 MHz. The high gain, ruggedness and Broadband performance of this device make it ideal for large–signal, common–source amplifier applications in handheld radio equipment.

Typical Broadband EVB Performance (IDQ=90mA, TA = 25℃, CW)

V_DS	Freq.	Gmax	Pout		PAE
[V]	[MHz]	[dB]	[dBm]	[mW]	[%]
3.7	400	17.5	22.0	160	53.4
	440	16.0	23.2	210	67.4
	480	15.4	23.2	210	64.4
	520	13.8	23.0	200	61.3

Ÿ Capable of Handling 20:1 VSWR @ 6.0 Vdc, 0.2 Watts, CW

Features

Ÿ Characterized for Operation from 136 to 941 MHz

Ÿ Unmatched Input and Output Allowing Broad Frequency Range Utilization

Ÿ Integrated ESD Protection

Ÿ Broadband – Full Power Across the Band

Ÿ Exceptional Thermal Performance

Ÿ Extreme Ruggedness

Typical Applications

Ÿ Output Stage VHF Band Handheld Radio

Ÿ Output Stage UHF Band Handheld Radio

Ÿ Output Stage for 700–800 MHz Handheld Radio

Ÿ Driver for 10–1000 MHz Applications

Table1. Maximum Ratings

Rating	Symbol	Value	Unit
Drain-Source Voltage	VDSS	–0.5, +20	Vdc
Gate-Source Voltage	VGS	–0.5, +8	Vdc
Operating Voltage	VDD	0, +6	Vdc
Storage Temperature Range	Tstg	–65 to +150	℃
Case Operating Temperature	TC	–40 to +150	℃
Operating Junction Temperature	TJ	–40 to +150	℃
Power Dissipation @TC=25℃	PD	0.25	Watts

Table 2. ESD Protection Characteristic

Test Methodology	Class
Human Body Model (per JESD22--A114)	2, passes 2500 V
Machine Model (per EIA/JESD22--A115)	A, passes 100 V
Charge Device Model (per JESD22--C101)	IV, passes 2000 V

Table 3. Electrical Characteristics (T_A=25℃ unless otherwise noted)

Characteristic

Symbol

Min

Typ.

Max

Unit

Off Characteristics

Gate-Source Leakage Current

(VGS=5Vdc, VDS=0Vdc)

IGSS

500

nAdc

Zero Gate Voltage Drain Leakage Current

(VDS=16Vdc, VGS=0Vdc)

IDSS

100

nAdc

Zero Gate Voltage Drain Leakage Current

(VDS=3.7Vdc, VGS=0Vdc)

IDSS

100

nAdc

On Characteristics

Gate Threshold Voltage (VDS=3.7Vdc, ID=1mA)	VGS(th)	1.6	1.8	2.0	Vdc
Gate Quiescent Voltage (VDD=3.7Vdc, ID=90mA Measured in Functional Test)	VGS(Q)	2.2	2.6	2.8	Vdc
Drain-Source On-Voltage (VGS=5Vdc, ID=100mA)	VDS(ON)	-	0.28	-	Vdc

Dynamic Characteristics

Reverse Transfer Capacitance

(V_DG=3.7V, Level=30mVac@1MHz)

Crss

0.25

Output Capacitance

(V_DS=3.7V, Level=30mVac@1MHz)

Coss

1.8

Input Capacitance

(V_GS=5V, Level=30mVac@1MHz)

Ciss

8.0

Typical Performances (In DuSemi Narrowband Test DEMO，50 Ohm system)

Frequency=440MHz, V_DD=3.7Vdc, I_D₍_Q₎=90mA, Pin=7dBm, T_A=25℃

Output Power

P_out

151

Power Gain

GPS

Drain Efficiency

ηD

Broad Band Evaluation Circuit (@VDD = 3.7V, f = 440 MHz)

Test Circuit Component Layout

Table 5. Test Circuit Component Designations and Value

Part	Description	Part Number	Manufacturer
R3	470Ohm	—	—
R4	6.8KOhm	—	—
L1, L2	4.7nH	—	—
L3	8 Turns D: 0.5 mm, φ 2.4 mm Enamel Wire	—	—
C3,C15,	100pF Chip Capacitors	GQM21P5C1H101JB01	Murata
C4	18pF Chip Capacitors	GRM1885C1H201JA01	Murata
C12, C9	1000pF Chip Capacitors	GRM1885C1H102JA01	Murata
C10, C14,C7	10uF,25VChip Capacitors	—	—
C5	24pF Chip Capacitors	—	Murata
R1,R2,C1,C2,C8,C6	NC	—	—
U1	LM1117
PCB	FR-4 ,1.6mm, Ɛ_r4.5	—

Typical Characteristics

1. Power Gain, Drain Efficiency and Output Power versus Frequency at a Constant Pin

VDD	I_D(Q)	Pin	Freq	Pout		Gain	ηD
[V]	[mA]	[dBm]	[MHz]	[dBm]	[mW]	[dB]	[%]
3.7	90	7	400	22.1	161	15.0	53.4
			440	21.8	151	14.7	47.4
			480	21.5	142	14.2	44.6
			520	20.3	107	13.4	32.1

2. Output Power versus Gate-Source Voltage @440MHz

3. Power Gain versus Output Power@440MHz

4. Power Gain, Drain Efficiency and Output Power versus Input Power

V_DS	I_D₍_Q₎	Freq.	Gain	Pout		η_D
[V]	[mA]	[MHz]	[dB]	[dBm]	[mW]	[%]
3.7	90	400	17.5	22.0	160	53.4
		440	16.0	23.2	210	67.4
		480	15.4	23.2	210	64.4
		520	13.8	23.0	200	61.3

Package (encapsulation)

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