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MOTOROLA

SEMICONDUCTOR TECHNICAL DATA

Order this document by MRF6404/D

The RF Line

NPN Silicon

RF Power Transistor

The MRF6404 is designed for 26 volts microwave large signal, common emitter, class AB linear amplifier applications operating in the range 1.8 to 2.0 GHz.

•Specified 26 Volts, 1.88 GHz Characteristics Output Power Ð 30 Watts

Gain Ð 7.5 dB Min @ 30 Watts Efficiency Ð 38% Min @ 30 Watts

•Characterized with Series Equivalent Large±Signal Parameters from 1.8 to 2.0 GHz

•To be used in Class AB for DCS1800 and PCS1900/Cellular Radio

•Gold Metallized, Emitter Ballasted for Long Life and Resistance to Metal Migration

MAXIMUM RATINGS

MRF6404

MRF6404K

30 W, 1.88 GHz

RF POWER TRANSISTOR

NPN SILICON

CASE 395C±01, STYLE 1

Rating		Symbol		Value		Unit

Collector±Emitter Voltage		VCEO		24		Vdc
Collector±Emitter Voltage		VCES		60		Vdc
Emitter±Base Voltage		VEBO		4		Vdc
Collector±Current Ð Continuous		IC		10		Adc
Total Device Dissipation @ TC = 25°C		PD		125		Watts
Derate above 25°C				0.71		W/°C

Storage Temperature Range		Tstg	± 65 to +150			°C
Operating Junction Temperature		TJ		200		°C
THERMAL CHARACTERISTICS

Characteristic		Symbol		Max		Unit

Thermal Resistance, Junction to Case (1)		RθJC		1.4		°C/W
ELECTRICAL CHARACTERISTICS (TC = 25°C unless otherwise noted)
Characteristic	Symbol	Min	Typ		Max	Unit

OFF CHARACTERISTICS

Collector±Emitter Breakdown Voltage (IC = 50 mA, IB = 0)	V(BR)CEO	24	29		Ð	Vdc
Emitter±Base Breakdown Voltage (IE = 10 mAdc)	V(BR)EBO	4	5		Ð	Vdc
Collector±Base Breakdown Voltage (IC = 50 mAdc)	V(BR)CES	60	68		Ð	Vdc
Collector±Base Breakdown Voltage (IC = 50 mAdc, RBE = 75 Ω)	V(BR)CER	40	56		Ð	Vdc
Collector Cutoff Current (VCE = 30 V, VBE = 0)	ICES	Ð	Ð		10	mA
ON CHARACTERISTICS

DC Current Gain (IC = 1 Adc, VCE = 5 Vdc)	hFE	20	50		120	Ð

(1) Thermal resistance is determined under specified RF operating condition.

REV 2

MOTOROLAMotorola, Inc. 1996RF DEVICE DATA	MRF6404 MRF6404K
	1

ELECTRICAL CHARACTERISTICS Ð continued (TC = 25°C unless otherwise noted)

Characteristic	Symbol	Min		Typ	Max	Unit

DYNAMIC CHARACTERISTICS

Output Capacitance	Cob	30		38	Ð	pF
(VCB = 26 V, IE = 0, f = 1 MHz)
For information only. This part is collector matched.

FUNCTIONAL TESTS

Common±Emitter Amplifier Power Gain	Gpe	7.5		8.5	Ð	dB
(VCC = 26 V, Pout = 30 W, ICQ = 150 mA, f = 1.88 GHz)
Common±Emitter Amplifier Power Gain	Gpe	7		8	Ð	dB
(VCC = 26 V, Pout = 28 W, ICQ = 150 mA)
(f = 1.99 GHz)

Collector Efficiency	η					%
(VCC = 26 V, Pout = 30 W, f = 1.88 GHz)		38		43	Ð
(VCC = 26 V, Pout = 28 W, f = 1.99 GHz)		35		40	Ð
Output Power at 1 dBc	P1dBc					Watts
(VCC = 26 V, f = 1.88 GHz)		30		35	Ð
(VCC = 26 V, f = 1.99 GHz)		28		33	Ð
Output Mismatch Stress: VSWR = 3:1 (all phase angles)	Ψ		No Degradation in Output Power
(VCC = 26 Vdc, Pout = 25 W, ICQ = 150 mA, f = 1.88 GHz)			No Degradation in Output Power
(VCC = 26 Vdc, Pout = 25 W, ICQ = 150 mA, f = 1.88 GHz)

f = 1.8 GHz

Zin

1.9 GHz

Zo = 20 Ω

ZOL*

f = 1.8 GHz

DCS EVALUATION

f	Zin	ZOL*
(GHz)	(Ω)	(Ω)

1.8	4.3 + j6.1	2.7 ± j1.0

1.85	4.6 + j5.3	2.9 + j0.3

1.9	4.8 + j5.0	3.0 + j1.2

ZOL*: Conjugate of optimum load impedance into which the device operates at a given output power, voltage, current and frequency.

Figure 1. Input and Output Impedances with Circuit Tuned for Maximum Gain @ VCC = 26 V, ICQ = 150 mA, Pout = 30 W

MRF6404 MRF6404K	MOTOROLA RF DEVICE DATA
2

TYPICAL CHARACTERISTICS

	40				f = 1.7 GHz			40
	35	VCC = 26 V			f = 1.7 GHz			35
(WATTS)	35	VCC = 26 V					(WATTS)	35
		ICQ = 150 mA				1.9 GHz						Pin = 5 W
	30					1.9 GHz		30				Pin = 5 W
	30							30
						1.8 GHz
POWER	25					1.8 GHz	POWER	25
	25							25
	20							20	VCC = 26 V			3 W
	20							20	VCC = 26 V
, OUTPUT							, OUTPUT		ICQ = 150 mA
	15							15
	10							10
out	10						out	10
out							out
P							P					1 W
	5							5				1 W
	5							5
	0							0
	0	1	2	3	4	5	6	1.70	1.75	1.80	1.85	1.90
			Pin, INPUT POWER (WATTS)							f, FREQUENCY (GHz)

Figure 2. Output Power versus Input Power

Figure 3. Output Power versus Frequency

(dBc)	± 25						12
	± 25						12
DISTORTIONINTERMODULATION	± 30			3rd Order		(DEGREE)PHASE	9	VCC = 26 V
DISTORTIONINTERMODULATION	± 30					(DEGREE)PHASE	9	ICQ = 150 mA
	± 35						6	f = 1.88 GHz
	± 35						6
	± 40			5th			3
				5th
	± 45			7th			0
	± 50						± 3
IMD,	± 55			VCC = 26 V			± 6
IMD,	± 55			ICQ= 150 mA			± 6
	± 60			f = 1.88 & 1.8801 GHz			± 9
	± 60						± 9	4	8	12	16	20
	0	10	20	30	40		0	4	8	12	16	20	24	28	32	36	40
		Pout, OUTPUT POWER (WATTS) PEP								Pout, OUTPUT POWER (WATTS)

Figure 4. Intermodulation versus Output Power

Figure 5. AM/PM Conversion

MOTOROLA RF DEVICE DATA	MRF6404 MRF6404K
	3

		T2			VCC
	+	T2			VBB
C11	+
C11	R2	R3				+
	R2	R3		R4		+
				R4		C7
						C7
		T1	P1		L1
C10					L1
C10		C12		C13
		C12		C13
C9	R1					C5
	R1
C8		BASE BIAS CIRCUIT				C4
C8						C4
	Z 4, Θ4				Z 11,Θ11
		C20					C2
	C1	Z5,Θ5					C2
	C1	Z5,Θ5	Z6,Θ6	Z7,Θ7	Z8,Θ8	Z10,Θ10	Z12,Θ12
Z1,Θ1	Z2,Θ2	TRF1					RF
RF	ΘB						OUTPUT
INPUT	ΘB						OUTPUT
INPUT					RF CIRCUIT
	CT2	C21		CT3	RF CIRCUIT
	CT2	C21		CT3

Base Bias Circuit		Decoupling Base Bias Circuit
C12, C13	15 nF, Chip Capacitor, Vitramon (0805 A153 JXB)	C4			68 pF, Chip Capacitor, ATC 100A
P1	1 KΩ, Trimmer	C5, C9			330 pF, Chip Capacitor, Vitramon (0805 A331 JXB)
R3	47 Ω, Chip Resistor, 0805	C7, C11			4.7 μF, 63 V, Electrolytic Capacitor
R4	330 Ω, Chip Resistor, 0805	C8			68 pF, Chip Capacitor, ATC 100A
T1,T2	Motorola MJD 31C	C10			15 nF, Chip Capacitor, Vitramon (0805 A153 JXB)
		R1			1.5 Ω, Chip Resistor, 0805
		R2			56 Ω, Chip Resistor, 1206
RF Circuit
C1, C2	68 pF, Chip Capacitor, ATC 100A	All Electrical Lengths Are Referenced from λg @ f = 1.9 GHz
C20, C21	1.3 pF, Chip Capacitor, ATC 100A	Z1	:	50 Ω	Θ1 :	10°
CT2	Trimmer Capacitor, Gigatrim, Ref 37281	Z2	:	50 Ω	Θ2 :	74.5° ΘB : 16.5°
CT3	Trimmer Capacitor, Gigatrim, Ref 37291	Z4	:	74 Ω	Θ4 :	68°
TRF1	MRF6404	Z5	:	12.8 Ω	Θ5 :	21°
PC Board Material:		Z6	:	10.4 Ω Θ6 :		49.5°
PC Board Material:		Z7	:	18 Ω	Θ7 :	36.5°
εr = 2.55, H = 0.508 mm, T = 0.035 mm		Z7	:	18 Ω	Θ7 :	36.5°
εr = 2.55, H = 0.508 mm, T = 0.035 mm		Z8	:	45 Ω	Θ8 :	20°
		Z8	:	45 Ω	Θ8 :	20°
		Z10		: 50 Ω	Θ10	: 10°
		Z11 : 74 Ω			Θ11 : 74.5°
		Z12		: 50 Ω	Θ12	: 10°

Figure 6. 1.80 ± 1.88 GHz Test Circuit Electrical Schematic and Components List

MRF6404 MRF6404K	MOTOROLA RF DEVICE DATA
4

(Not to Scale)

Teflon Glass 0.5 mm ± Double Side 35 μm Cu.

Figure 7. 1.80 ± 1.88 GHz PCN Test Circuit Photomaster

RF INPUT

				V	+VCC
C12		C13			C7
					C7
T1				T2	L1
T1				T2	C5
R3		P1	R4		C5
R3		P1	R4		C4
C10		R1			C4
C10
C11				C8
R2	C9
				C20
					M
C1			CT2	C21	C2
			CT2	C21	CT3
					CT3

RF OUTPUT

Figure 8. 1.80 ± 1.88 GHz PCN Test Circuit Components Layout

MOTOROLA RF DEVICE DATA	MRF6404 MRF6404K
	5

PCS EVALUATION

			f	Zin	ZOL*
2.0 GHz			(GHz)	(Ω)	(Ω)
2.0 GHz	f = 1.9 GHz
	f = 1.9 GHz		1.90	4.9 + j3.0	3.2 + j0.5
ZOL*			1.90	4.9 + j3.0	3.2 + j0.5
ZOL*	Zin	Zo = 20 Ω
	Zin	Zo = 20 Ω	1.93	5.4 + j2.5	3.3 + j1.2
			1.93	5.4 + j2.5	3.3 + j1.2
f = 1.9 GHz			1.97	5.6 + j1.4	3.4 + j1.5
	2.0 GHz		1.97	5.6 + j1.4	3.4 + j1.5
	2.0 GHz
			2.00	5.4 ± j0.2	3.6 + j2.5

ZOL*: Conjugate of optimum load impedance into which the device operates at a given output power, voltage, current and frequency.

Figure 9. Input and Output Impedances with Circuit Tuned for Maximum Gain @ VCC = 26 V, ICQ = 150 mA, Pout = 28 W

MRF6404 MRF6404K	MOTOROLA RF DEVICE DATA
6

TYPICAL CHARACTERISTICS

	40
(WATTS)	35
	30			f = 1.9 GHz
	30
					2 GHz
POWER	25				2 GHz
	25
	20
, OUTPUT	20
	15
	10
out	10
out					VCC = 26 V
P
	5
	5				ICQ = 150 mA
	0
	1	2	3	4	5	6
		Pin, INPUT POWER (WATTS)

	40
(WATTS)	35			Pin = 5 W
				Pin = 5 W
	30

POWER	25
	20			3 W

OUTPUT
	15	VCC = 26 V
		ICQ = 150 mA		1 W
,	10
out	10
out
P
	5
	0
	1.90	1.925	1.95	1.975	2.00

f, FREQUENCY (GHz)

Figure 10. Output Power versus Input Power

Figure 11. Output Power versus Frequency

	40
	35
(WATTS)	30		f = 2 GHz
	30
	25
POWER	25
	20					η
	20

, OUTPUT	15
, OUTPUT	10			VCC = 26 V
out				I	CQ	= 150 mA
P	5				CQ
	5
	0	2	3	4		5	6
	1	2	3	4		5	6

Pin, INPUT POWER (WATTS)

			40
			35
		,OUTPUT POWER (WATTS)	30		f = 1.93 GHz
			30
50	, EFFICIENCY (%)		25					η	50
								η
45			20						45
40			15						40
35			10			V		= 26 V	EFFICIENCYη(%),
35	η	out	10			CC			35
	η	out				I	= 150 mA
		P	5			CQ
			5
			0	2	3	4		5	6
			1	2	3	4		5	6
				Pin, INPUT POWER (WATTS)

Figure 12. Output Power and Efficiency	Figure 13. Output Power and Efficiency versus
versus Input Power	Input Power

	40
(WATTS)	35			Pin = 5 W
				Pin = 5 W
	30

POWER	25
	20			3 W
	20
, OUTPUT	15	VCC = 26 V
	15	ICQ = 150 mA
		ICQ = 150 mA		1 W
	10
out	10
out
P	5
	5
	0
	1.90	1.925	1.95	1.975	2.00
			f, FREQUENCY (GHz)

Figure 14. Output Power versus Frequency

MOTOROLA RF DEVICE DATA	MRF6404 MRF6404K
	7

		T2			VCC
	+	T2			VBB
C11	+
C11	R2	R3		R4		+
	R2	R3				+
						C7
						C7
		T1	P1		L1
C10					L1
C10		C12		C13
		C12		C13
C9	R1					C5
	R1
C8		BASE BIAS CIRCUIT				C4
C8						C4
	Z 4, Θ 4				Z 11,Θ 11
	C1	Z5,Θ5					C2
		Z5,Θ5	Z6,Θ6	Z7,Θ7	Z8,Θ8	Z10,Θ10	Z12,Θ12
			Z6,Θ6	Z7,Θ7	Z8,Θ8	Z10,Θ10	Z12,Θ12
Z1,Θ1	Z2,Θ2	TRF1					RF
RF	ΘB						OUTPUT
INPUT	ΘB						OUTPUT
INPUT					RF CIRCUIT
	CT1			CT2	RF CIRCUIT
	CT1			CT2

Base Bias Circuit		Decoupling Base Bias Circuit
C12, C13	15 nF, Chip Capacitor, Vitramon (0805 A153 JXB)	C4	68 pF, Chip Capacitor, ATC 100A
P1	1 KΩ, Trimmer	C5, C9	330 pF, Chip Capacitor, Vitramon (0805 A331 JXB)
R3	47 Ω, Chip Resistor, 0805	C7, C11	4.7 μF, 63 V, Electrolytic Capacitor
R4	330 Ω, Chip Resistor, 0805	C8	68 pF, Chip Capacitor, ATC 100A
T1,T2	Motorola MJD 31C	C10	15 nF, Chip Capacitor, Vitramon (0805 A153 JXB)
		R1	1.2 Ω, Chip Resistor, 0805
		R2	56 Ω, Chip Resistor, 1206

RF Circuit

C1, C2	68 pF, Chip Capacitor, ATC 100A
C20, C21	1.3 pF, Chip Capacitor, ATC 100A
CT1, CT2	Trimmer Capacitor, Gigatrim, Ref 37271
TRF1	MRF6404

PC Board Material:

εr = 2.55, H = 0.508 mm, T = 0.035 mm

All Electrical Lengths Are Referenced from λg @ f = 1.9 GHz

Z1	:	50 Ω	Θ1 :		10°
Z2	:	50 Ω	Θ2 :		74.5° ΘB : 16.5°
Z4	:	74 Ω	Θ4 :		68°
Z5	:	12.8 Ω	Θ5	:	21°
Z6	:	10.4 Ω	Θ6	:	49.5°
Z7	:	18 Ω	Θ7	:	36.5°
Z8	:	45 Ω	Θ8	:	20°
Z10		: 50 Ω	Θ10		: 10°
Z11 : 74 Ω			Θ11 : 60°
Z12		: 50 Ω	Θ12		: 10°

Figure 15. 1.9 ± 2.0 GHz Test Circuit Electrical Schematic and Components List

MRF6404 MRF6404K	MOTOROLA RF DEVICE DATA
8

(Not to Scale)

Teflon Glass 0.5 mm ± Double Side 35 μm Cu.

Figure 16. 1.9 ± 2.0 GHz Test Circuit Photomaster

RF INPUT

			V	+VCC
C12		C13		+
			C7
T1			T2	L1
				C5
R3		P1	R4
				C4
C10		R1
			C8
R2	C9

	M
C1	C2
	CT1
	CT2

RF OUTPUT

Figure 17. 1.9 ± 2.0 GHz Test Circuit Components Layout

MOTOROLA RF DEVICE DATA	MRF6404 MRF6404K
	9

PACKAGE DIMENSIONS

		±A±
		±A±
		U			Q 2 PL




	1				0.51 (0.020) M	T	A M	B M	NOTES:
	1				0.51 (0.020) M	T	A M	B M


									1. DIMENSIONING AND TOLERANCING PER ANSI
										Y14.5M, 1982.
									2. CONTROLLING DIMENSION: INCH.
									2. CONTROLLING DIMENSION: INCH.

											INCHES		MILLIMETERS
											INCHES		MILLIMETERS
										DIM	MIN	MAX	MIN	MAX
				±B±						A	0.739	0.750	18.77	19.05
										B	0.240	0.260	6.10	6.60
										B	0.240	0.260	6.10	6.60
			3							C	0.165	0.198	4.19	5.03
			3							C	0.165	0.198	4.19	5.03
										D	0.215	0.225	5.46	5.72
										E	0.055	0.070	1.40	1.78
K										H	0.079	0.091	2.01	2.31
K										J	0.004	0.006	0.10	0.15
	2									K	0.210	0.240	5.33	6.10
	2									N	0.315	0.330	8.00	8.38
										N	0.315	0.330	8.00	8.38
										Q	0.125	0.135	3.18	3.42
										Q	0.125	0.135	3.18	3.42
		D								U	0.560 BSC		14.23 BSC
		D

N	E	STYLE 1:
N	E	PIN 1.	BASE
J		2.	COLLECTOR
		3.	EMITTER
H	C
H
	±T±	SEATING
		PLANE

CASE 395C±01

ISSUE A

Motorola reserves the right to make changes without further notice to any products herein. Motorola makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does Motorola assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or incidental damages. ªTypicalº parameters which may be provided in Motorola data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including ªTypicalsº must be validated for each customer application by customer's technical experts. Motorola does not convey any license under its patent rights nor the rights of others. Motorola products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the Motorola product could create a situation where personal injury or death may occur. Should Buyer purchase or use Motorola products for any such unintended or unauthorized application, Buyer shall indemnify and hold Motorola and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that Motorola was negligent regarding the design or manufacture of the part. Motorola and are registered trademarks of Motorola, Inc. Motorola, Inc. is an Equal Opportunity/Affirmative Action Employer.

How to reach us:
USA / EUROPE / Locations Not Listed: Motorola Literature Distribution;	JAPAN: Nippon Motorola Ltd.; Tatsumi±SPD±JLDC, 6F Seibu±Butsuryu±Center,
P.O. Box 20912; Phoenix, Arizona 85036. 1±800±441±2447 or 602±303±5454	3±14±2 Tatsumi Koto±Ku, Tokyo 135, Japan. 03±81±3521±8315
MFAX: RMFAX0@email.sps.mot.com ± TOUCHTONE 602±244±6609	ASIA/PACIFIC: Motorola Semiconductors H.K. Ltd.; 8B Tai Ping Industrial Park,
INTERNET: http://Design±NET.com	51 Ting Kok Road, Tai Po, N.T., Hong Kong. 852±26629298

MRF6404 MRF6404K	◊	MOTOROLA RF DEVICEMRF6404/DDATA
10		MRF6404/D
10

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