SWITCHES cuts Sppr DC fo 4.6 GHz KSW *KSWA *KSWHA FREQ. 4 R INSERTION LOSS, d8 1dB COMPRESSION, dBm | IN-OUTISOLATION, dB |CAPD/CASE/ 5 | PRICE GHz sie DATAISTYLE] o| $ : a RIE pm x: sep mig pings pet oe a ese eae :. [eer de - PIS] FREQUENCY BAND FREQUENCY.BAND: | -PREQUENCYBAND . ["A0) e MODEL viv| A B c A B Cc } A) BOE to |Note| | ty. NO. ELE | typ. Max. Typ. Max. typ. Mox.| Typ. Typ: Typ. | typ. Min. typ. Min. typ. Mind Page| Bo | n . KSW-2-46 DC-4.6 @|09 11) 1.0 1.3 1.3 47 10 17 27 60 50 45 40 30 23 13-15 | XX112] eh] 36.95 KSWA-2-46 DC-4.6 | @ 08 1.1 O09 13 16 26 10 17 27 60 45 50 40 30 25 | 13-15] XX172] eh} 58.95 A = DC to 200MHz B = 200MHz to 1 JOO0MHz C = 1O00MHz to 4600MHz KswHar-20 | oc-20 fe] [og 12 139 17 ~~ [ 19 25 - 75 60065 58) | 18-11 [xxriz] ex] 34.99 A = DC to 200MHz B = 200MHz to 2300MHz additional specifications Model Series KSW | _KSWAT KSWHA [MSW [MSWA [ MSWT Control Voltage -8/0 for cornp ession spec, -8 to -5/0 for all other specs Control Current, mA 2.5 typ. at -8V | 0.2 max to -8V 0.2 max to -8V, 0.02 max at 0 to -0.2V DC-0.2GHz 0.2-2GHz| DC-1GHz ]-2GHz DC-0.1GHz 0.1-0.5GHz 0.5-1GHz = 1-2GHz VSWR 1.3 typ. ON, all ports 1.25max 15 max | 1.2 typ. 1.4 typ. 1.2 1.25 1.4 14 typ OFF, Input 1.25 max. 1.5 max. 1.45 1.65 1.8 19 max. OFF, Output 1.4 max 1.5 max Rise/ Fall time (10% - 90%), ns 2 typ. 3 typ., 5 max 2 typ. 3 typ. 2 typ Switching time, 50% of Control to 90% RF Turn-on), ns 7 typ., 10 max. Atyp 5.5 typ. Atyp. 10% RF Turn-off}, ns 3 typ., 10 max. Atyp. 3 typ. Atyp. "Video Leakage, mVp-p 30 typ. 30 typ., 50 max. 15 typ. & typ. 15 typ. 0/-5V Control Temperature. C operating -65 to 100 -40 to 85 storage -55 to 150 -85 to 100 MTBF, hrs @ 100C case 7X10% i 11X10 NOTES: KSWA and KSWHA models are hermetically sealed. as switching signal to RF output ports. availabie in General Information Section. B. Units are non-hermetic unless otherwise noted. For de*ails on case dimensions & finishes see Case Styles & Outline Drawings. Video leakage or break through is defined as leakage of TTL Environmental specifications and re-flow soldering information Prices and Specifications subject to change without notice. 1. Absolute maximum power, voltage and current ratings for KSW, KSWA models: la. RF power input, +30 dBm except below 500 MHz +27 dBm: lb. Control voltage -10 V maximum. 2. Abdsolute rnaximum power, voltage & current ratings: MSW, MSWA MSWT models: 2a, RF power input, (25C) DC-100 100-500 501 MSW-2-20: Steady state 0/-8V control, +23 +27 As modulator +1] +17 MSWA-2-20: Steady state 0/-8V control, +24 +27 As modulator +12 +17 MSWT-4-20; Steady state 0/-8V control +24 +27 modulator application +12 +17 we = = a CJ Mini-Circuits 150 0-2000 +3] +21 +33 +23 +33 +23 P.O. Box 350166, Brooklyn, New York 11235-0003 Distribution Centers/ NORTH AMERICA 800-654-7949 * 477-335-5935 Fax 417-335-5945 EUROPE 44-1252-835094 Fax 44-1252-837010 2b, Control current, 500uA (Occurs at -9V to -12V typcal) 3. Absolute maximurn power, voltage and current ratings for KSWHA-1-20: 3a. RF power input. (Above 20C derate power linearty to zero at 150C.) DC-20 20-500 500-2000 MHz Steady state 0/-8V control, $23 +30 +33 dBm As modulator * +14.5 +20 +27 dBm * In modulator service, unrestricted switching is permitted with RF applied. 3b. Control current, 500uA (Occurs at -9V to -12V typical) 4. Forreflective switches, KSW, MSW models, OFF state of RF output is low impedance. MHz dBm NSN GUIDE oe MCLNO. NSN Be KSW-2-46 5985-01-393-7219 dBm KSWA-2-46 5985-01-369-4224 dBm INTERNET http://www. minicircuits.com (718) 934-4500 Fax (718) 332-4661Surface Mount C_] Mini-Ci ircui Sppr DC to 2 GHz MSW MSWA MSWT FREQ. 4 LR INSERTION LOSS, dB 1dB COMPRESSION, IN-OUTISOLATION, dB ICAPD | CASE! | PRICE GH S| F dBm DATA |STYLE| | $ -Spole n os. Le ( FREQUENCY BAND FREQUENCY BAND FREQUENCY BAND nag Mops Bld A B.C. DB [A 8B Cc D A 6. c D | 0 Note] i) aty. oP YC typ: Max: typ. Max. Typ. Mex, Typ. Max.| Typ. Typ. Typ. Typ. | Typ. Min. Typ. Min. Typ. Min.typ. Min page | B [2] 1-9 MSW-2-20 DC-2.0 @/030 056 04 0.7 050 10 O75 13] 22 23 24 25 55 50 43 36 34 28 24 20 =_ XX21 fet} 2.95 MSWA-2-20 | DC-2.0] @ 065 09 OF9 12 095 13 1.20 1.5] 20 24 27 29 60 50 45 37 40 32 30 25 =_ XxX211/es} 3.45 A=DC to 100MHz B=100MHz to S50OMHz TRANSFER DC fo 2 GHz Low Video Leakage C=500MHz to 1000MHz D=1000MHz to 2000MHz path ISOLATION, dB MSWT-4-20 DC-2.0|Tx-JT/J2 | 0.9 1.2 11015 1.25 1.8 145 2.2 18 25 28 29 51 44 34 27) 326 21 19 15 JIN2Rx} 1.40724 #13 17 15 2.0 16 22 16 18 20 22 52 46 37 31 29 24 21 17 _ XX21 i) eu 3.95 Tx-Rx 60 53 41 36 34 27 28 21 A=DC to 100MHz B= 100MHz to SQOMHz C=500MHz to 1000MHz D=1000MHz to 2000MHz control logic pin connections Model Contrat Ports RF outputs see case style outline drawings Series ] 2 3 4 1 2 PORT eh ek es et PORT eu KSW.KSWA [v0 | On Off RF IN 2 ' 2 ' Ix 2 MsW,MSWA}OQ -+v | Off On RFOUT | 5 5 8 6 Rx 6 RF QUT 2 8 5 3 Jt 4 KSWHA yO = =] On CONTROL 1 3 2 3 5 2 8 ee = CONTROL 2 1 3 1 4 CONTROL 1 | 1 MSWT On Path GND EXT 467 4.6,7,8 46,7 2.7.8 CONTROL 2 | 3 cother paths are GFF") CONTROL 3 | 5 0 y y Vy 1x2 CONTROL 4 | 7 0 v Vv Tx-J] v 0 v Rx-J1 v Vv 4 0 Rx-J2 0 0 Nv Tx-J2 & Rx-J1 AN ENNA v 0 v 0 Tx-J1 & Rx-J2 Application Note for Model MSWT-4-20 Transmit-Receive Switch: The functional schematic diagram for a diversity application of the switch 1s TRANSMITTER shown ir Figure |. with the required external components including 4 independent drivers at the control ports. When operation as a transfer switch is desired only 2 drivers are needed, one connected to the V1 and V3 parts together, and the other connected to the V2 and v4 ports. In either case, two DC return paths are needed for the control volfages, represented by the ground symbols in the diagram, These returns must de via oppositely situated RF ports dx and Rx or J] and J2), and can be furnished incidentally by the user's RF terrminatng devices themselves. However, if those devices are AC-coupled (hat is, they contain DC blocking capacitors), then the shunt resistars shown in the diagram are needed. The resistors should be installed either at tne Tx and Rx parts (connection shown as solid). orat J) anc J? (showr dotted), with equal effect. If ane external RF device has a DC return to ground. for example, then only one resistor is neecdecr it must be instailed at the opposite RF port of ihe ANTENNA switch. Tre resistance of eachof the external DC returns should be 20K chms cr less, for proper ON/OFF FETs Figure |. FUNCTIONAL SCHEMATIC DIAGRAM Cransmit-Recelive application) . . aigble oy yaila?'Ree' In Stock... Immediate Delivery pune Fi For Custom Versions Of Standard Models Consult Qur Applications Dept. 151