NJU1206MER. SP6T Switch MMIC with MIPI RFFE. FEATURES MIPI RFFE Serial control interface

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SP6T Switch MMIC with MIPI RFFE FEATURES MIPI RFFE Serial control interface Low insertion loss High isolation External MIPI select pin.3 db typ. @ f =.9 GHz.4 db typ. @ f = 1.9 GHz.5 db typ. @ f = 2.7 GHz 4 db typ. @ f =.9 GHz 3 db typ. @ f = 1.9 GHz 26 db typ. @ f = 2.7 GHz Small QFN package: 14-pin, 2. x 2. mm RoHS compliant and Halogen Free Moisture Sensitivity Level 1 (MSL1) APPLICATN For TRx switching of LTE, UMTS, CDMA, and TD-SCDMA mode For Rx switching of LTE, UMTS, CDMA, TD-SCDMA and GSM mode GENERAL DESCRIPTN The is a SP6T switch MMIC with a Mobile Industry Processor Interface (MIPI). The features high isolation and low insertion loss, and these performance makes this switch an ideal choice for LTE, UMTS, CDMA2, and EDGE applications. Switching is controlled by the MIPI decoder. There is an external MIPI select pin that enables how the switch responds to triggers. When this pin is grounded, the switch responds to all of triggers. When this pin is left open, the switch responds to individual triggers. It has integrated ESD protection circuits the IC to achieve high ESD tolerance. The small and thin EQFN14-ER package is adopted. BLOCK DIAGRAM (EQFN14-ER) 1Pin INDEX (Top view) PIN CONFIGURATN PIN NO. SYMBOL 1 P5 2 P3 3 P1 4 V 5 V 6 SDATA 7 SCLK 8 MIPI SELECT 9 P2 1 P4 11 P6 12 NC(GND) 13 PC 14 NC(GND) Exposed pad GND - 1 -

MARK INFORMATN ORDERING INFORMATN PART NUMBER PACKAGE OUTLINE RoHS HALOGEN- FREE TERMINAL FINISH MARKING WEIGHT (mg) MOQ (pcs.) EQFN14-ER Yes Yes Sn-Bi 1 4.7 3, ABSOLUTE MAXIMUM RATINGS T a = 25 C, Z s = Z l = 5 PARAMETER SYMBOL RATINGS UNIT RF Input Power P IN +34 (1) dbm +36 (2) Supply Voltage (3) V 3.75 V MIPI Control Voltage (4) V 3.2 V SDATA, SCLK, MIPI SELECT Input Voltage (5) V INDMAX V +.2 V Power Dissipation (6) P D 12 mw Operating Temperature T opr -4 to +15 C Storage Temperature T stg -55 to +15 C (1): V = 2.85 V, On state port, P1, P2, P3, and P4 terminals, CW (2): V = 2.85 V, On state port, P5 and P6 terminals, CW (3): V terminal (4): V terminal (5): V =1.65 to 1.95V (6): Mounted on four-layer FR4 PCB with through-hole (114.5 11.5 mm), T j = 15 C - 2 -

ELECTRICAL CHARACTERISTICS 1 (DC CHARACTERISTICS) V = 2.85 V, V = 1.8 V, T a = 25 C, Z s = Z l = 5, with application circuit PARAMETER SYMBOL TEST CONDITN MIN. TYP. MAX. UNIT Supply Voltage V V terminal 2.5 2.85 3.15 V Operating Current 1 I 1 Active mode, No RF input - 7 2 A Operating Current 2 I 2 Low power mode - 1 - A Interface Supply Voltage V V terminal 1.65 1.8 1.95 V Interface Supply Current I V V = 1.8 V, No signal input, MIPI SELECT=Open - 3.5 2 A SCLK Frequency f SCLK Write frequency - - 26 MHz SDATA Control Voltage High V SDATAH Output Current = -2 ma.8 x V 1.8 V V SDATA Control Voltage Low V SDATAL Output Current = 2 ma.2 x V V MIPI RFFE Control Voltage (High) V MIPIH SCLK, SDATA.8 x V - V V MIPI RFFE Control Voltage (Low) V MIPIL SCLK, SDATA -.2 x V V MIPI SELECT Control Voltage High V MSH 1.3 1.8 V V MIPI SELECT Control Voltage Low VMS L.4 V MIPI SELECT Control Current I MS MIPI SELECT = V -5-2 - A ELECTRICAL CHARACTERISTICS 2 (RF CHARACTERISTICS) V = 2.85 V, V = 1.8 V, T a = 25 C, Z s = Z l = 5, with application circuit PARAMETER SYMBOL TEST CONDITN MIN. TYP. MAX. UNIT Insertion Loss 1 LOSS 1 f =.9 GHz -.3.45 db Insertion Loss 2 LOSS 2 f = 1.9 GHz -.4.55 db Insertion Loss 3 LOSS 3 f = 2.7 GHz -.5.65 db Isolation 1 ISL 1 f =.9 GHz, PC port to any RF ports 36 4 - db Isolation 2 ISL 2 f = 1.9 GHz, PC port to any RF ports 27 3 - db Isolation 3 ISL 3 f = 2.7 GHz, PC port to any RF ports 23 26 - db 2nd Harmonics 1 2fo (1) f =.9 GHz, P IN = +25 dbm - -69-6 dbm 2nd Harmonics 2 2fo (2) f = 1.9 GHz, P IN = +25 dbm - -69-6 dbm 2nd Harmonics 3 2fo (3) f = 2.7 GHz, P IN = +25 dbm - -69-6 dbm 3rd Harmonics 1 3fo (1) f =.9 GHz, P IN = +25 dbm - -69-6 dbm 3rd Harmonics 2 3fo (2) f = 1.9 GHz, P IN = +25 dbm - -69-6 dbm 3rd Harmonics 3 3fo (3) f = 2.7 GHz, P IN = +25 dbm - -69-6 dbm 2nd Order Intermodulation 1 IMD 2 (1) Tone1:f TX = 835 MHz, P TX = +2 dbm Tone2:f JAM = 1715 MHz, P JAM = -15 dbm - -11-12 dbm 2nd Order Intermodulation 2 IMD 2 (2) Tone1:f TX = 195 MHz, P TX = +2 dbm Tone2:f JAM = 49 MHz, P JAM = -15 dbm - -11-12 dbm 3rd Order Intermodulation 1 IMD 3 (1) Tone1:f TX = 835 MHz, P TX = +2 dbm Tone2:f JAM = 79 MHz, P JAM = -15 dbm - -11-15 dbm 3rd Order Intermodulation 2 IMD 3 (2) Tone1:f TX = 195 MHz, P TX = +2 dbm Tone2:f JAM = 176 MHz, P JAM = -15 dbm - -11-15 dbm VSWR VSWR On-state ports, f = 2.7 GHz - 1.1 1.5 Switching time T SW - 2 5 s - 3 -

THERMAL CHARACTERISTICS PARAMETER SYMBOL VALUE UNIT Junction-to-ambient (7) thermal resistance θja 11 C/W Junction-to-Top of package (6) characterization parameter ψjt 26 C/W (7): Mounted on glass epoxy board. (114.5 11.5 x 1.6 mm: based on EIA/JEDEC standard, 4 Layers), internal Cu area: 99.5 x 99.5 mm POWER DISSIPATN vs. AMBIENT TEMPERATURE Power Dissipation P D [mw] 2 18 16 14 12 1 8 6 4 2-4 -25 25 5 75 1 15 Ambient Temperature Ta[ ] - 4 -

MIPI RFFE REGISTER DEFINITN TABLE Register Address Register Name Data bits Function Description Default x REGISTER 6: MODE_CTRL Device control x: Isolation x1: P5 - PC x2: P1 - PC x9: P6 - PC xa: P2 - PC xb: P4 - PC xe: P3 - PC x1c PM TRIG 7:6 PWR_MODE : Nomal Operation (Active) 1: Default settings (Start up) 1: Low power (Low Power Mode) 11: Reserved 5 Trigger_Mask_2 If this bit is set, trigger 2 is disabled. When all triggers disabled, if writing to a register that is associated to trigger 2, the data goes directly to the destination register. 4 Trigger_Mask_1 If this bit is set, trigger 1 is disabled. When all triggers disabled, if writing to a register that is associated to trigger 1, the data goes directly to the destination register. 3 Trigger_Mask_ If this bit is set, trigger is disabled. When all triggers disabled, if writing to a register that is associated to trigger, the data goes directly to the destination register. 2 Trigger_2 A write of a one to this bit loads trigger 2's registers 1 Trigger_1 A write of a one to this bit loads trigger 1's registers Trigger_ A write of a one to this bit loads trigger 's registers x1d PRODUCT ID 7: PRODUCT_ID Read-only. During programming of USID, a write command sequence is performed on this register but does not change its value. BROADCAST ID/GSID support Trigger support R/W x No Yes R/W Yes No R/W No No R/W No No R/W No No R/W No No R/W No No R/W No No R/W x73 No No R - 5 -

MIPI RFFE REGISTER DEFINITN TABLE (cont d) x1e MANUFACTURE ID 7: MANUFACTURER _ID [7:] Read-only. During programming of USID, a write command sequence is performed on this register but does not change its value. x92 No No R x1f MAN USID 7:6 SPARE Read-only reserved bit. No No R/W x1a x1b x2 RFFE_STATUS GROUP_SID EXT _PRODUCT_ID 5:4 MANUFACTURER _ID [9:8] Read-only. During programming of USID, a write command sequence is performed on this register but does not change its value. 3: USID Programmable USID. A write to these bits programs the USID. 7 SOFTWARE RESET 6 COMMAND_FRAME _PARITY_ERR : Nomal operation 1: Software reset (reset of all configurable registers to default values except for USID, GSID, or PM_TRIG) Commnad sequence reserved with parity error - discard command. x2 No No R xb No No R/W No No R/W No No R/W 5 COMMAND _LENGTH_ERR Commnad length error No No R/W 4 ARESS_FRAME _PARITY_ERR 3 DATA_FRAME _PARITY_ERR 2 READ_UNUSED _REG 1 WRITE_UNUSED _REG Address frame parity error = 1 Data frame with parity error Read command to an invaild address Write command to an invaild address RID_GID_ERR Read command with a BROADCAST_ID or GROUP_SID 7:4 RESERVED Optional 3: GROUP_SID Group slave ID 7: EXT_PROD_ID This forms the extension of the PRODUCT_ID. No No R/W No No R/W No No R/W No No R/W No No R/W x x x - - - Not applicable Not required R/W - - R - 6 -

MIPI RFFE POWER UP/DOWN SEQUENCE PIN CONFIGURATN PIN NO. SYMBOL DESCRIPTN 1 P5 RF transmitting/receiving port. With this port ON state, power of 36 dbm or less can be applied with matching state of 5 Ω. 2 P3 RF transmitting/receiving port. With this port ON state, power of 34 dbm or less can be applied with matching state of 5 Ω. 3 P1 RF transmitting/receiving port. With this port ON state, power of 34 dbm or less can be applied with matching state of 5 Ω. 4 V Positive voltage supply terminal. The positive voltage (+2.5 to +3.15V) has to be supplied. Please connect a bypass capacitor with GND terminal for excellent RF performance. 5 V MIPI RFFE interface power supply voltage. 6 SDATA MIPI RFFE interface data signal. 7 SCLK MIPI RFFE interface clock signal. 8 This is an external MIPI select terminal that enables how the switch responds to Triggers. MIPI When this terminal is connected to GND, all the Trigger _/1/ 2 are linked, and individual SELECT Trigger_ /1/2 can be performed when this terminal is opened (no voltage applied). 9 P2 RF transmitting/receiving port. With this port ON state, power of 34 dbm or less can be applied with matching state of 5 Ω. 1 P4 RF transmitting/receiving port. With this port ON state, power of 34 dbm or less can be applied with matching state of 5 Ω. 11 P6 RF transmitting/receiving port. With this port ON state, power of 36 dbm or less can be applied with matching state of 5 Ω. 12 NC(GND) No connected terminal. This terminal is not connected with internal circuit. Connect to the PCB ground plane. 13 PC RF transmitting/receiving port. 14 NC(GND) No connected terminal. This terminal is not connected with internal circuit. Connect to the PCB ground plane. Exposed pad GND Ground terminal. Connect exposed pad to ground plane as close as possible for excellent RF performance. - 7 -

ELECTRICAL CHARACTERISTICS. Loss, ISL vs. Frequency (PC-P1 ON, V =1.8V) (Losses of external circuits are excluded). Loss, ISL vs. Frequency (PC-P2 ON, V =1.8V) (Losses of external circuits are excluded) -.5-1 -.5-1 Insertion Loss (db) -1. -1.5-2. -2.5 Loss PC-P2 ISL PC-P3 ISL PC-P4 ISL PC-P5 ISL PC-P6 ISL -2-3 -4-5 Isolation (db) Insertion Loss (db) -1. -1.5-2. -2.5 Loss PC-P1 ISL PC-P3 ISL PC-P4 ISL PC-P5 ISL PC-P6 ISL -2-3 -4-5 Isolation (db) -3. -6. 1. 2. 3. 4. Frequency (GHz) -3. -6. 1. 2. 3. 4. Frequency (GHz). Loss, ISL vs. Frequency (PC-P3 ON, V =1.8V) (Losses of external circuits are excluded). Loss, ISL vs. Frequency (PC-P4 ON, V =1.8V) (Losses of external circuits are excluded) -.5-1 -.5-1 Insertion Loss (db) -1. -1.5-2. -2.5 Loss PC-P1 ISL PC-P2 ISL PC-P4 ISL PC-P5 ISL PC-P6 ISL -2-3 -4-5 Isolation (db) Insertion Loss (db) -1. -1.5-2. -2.5 Loss PC-P1 ISL PC-P2 ISL PC-P3 ISL PC-P5 ISL PC-P6 ISL -2-3 -4-5 Isolation (db) -3. -6. 1. 2. 3. 4. Frequency (GHz) -3. -6. 1. 2. 3. 4. Frequency (GHz). Loss, ISL vs. Frequency (PC-P5 ON, V =1.8V) (Losses of external circuits are excluded). Loss, ISL vs. Frequency (PC-P6 ON, V =1.8V) (Losses of external circuits are excluded) -.5-1 -.5-1 Insertion Loss (db) -1. -1.5-2. -2.5 Loss PC-P1 ISL PC-P2 ISL PC-P3 ISL PC-P4 ISL PC-P6 ISL -2-3 -4-5 Isolation (db) Insertion Loss (db) -1. -1.5-2. -2.5 Loss PC-P1 ISL PC-P2 ISL PC-P3 ISL PC-P4 ISL PC-P5 ISL -2-3 -4-5 Isolation (db) -3. -6. 1. 2. 3. 4. Frequency (GHz) -3. -6. 1. 2. 3. 4. Frequency (GHz) - 8 -

ELECTRICAL CHARACTERISTICS Harmonics vs. Input Power Harmonics vs. Input Power (f=9mhz, PC-P1 ON, V =1.8V) (f=9mhz, PC-P5 ON, V =1.8V) -4-4 -5 2fo 3fo -5 2fo 3fo Harmonics (dbm) -6-7 -8 4fo Harmonics (dbm) -6-7 -8 4fo -9-9 -1 2 22 24 26 28 3 32 34 36 Input Power (dbm) -1 2 22 24 26 28 3 32 34 36 Input Power (dbm) Harmonics vs. Input Power Harmonics vs. Input Power (f=19mhz, PC-P1 ON, V =1.8V) (f=19mhz, PC-P5 ON, V =1.8V) -4-4 -5 2fo 3fo -5 2fo 3fo Harmonics (dbm) -6-7 -8 4fo Harmonics (dbm) -6-7 -8 4fo -9-9 -1 2 22 24 26 28 3 32 34 36 Input Power (dbm) -1 2 22 24 26 28 3 32 34 36 Input Power (dbm) Harmonics vs. Input Power Harmonics vs. Input Power (f=27mhz, PC-P1 ON, V =1.8V) (f=27mhz, PC-P5 ON, V =1.8V) -4-4 -5 2fo 3fo -5 2fo 3fo Harmonics (dbm) -6-7 -8 4fo Harmonics (dbm) -6-7 -8 4fo -9-9 -1 2 22 24 26 28 3 32 34 36 Input Power (dbm) -1 2 22 24 26 28 3 32 34 36 Input Power (dbm) - 9 -

ELECTRICAL CHARACTERISTICS Switching Time (V =1.8V, PC-P6 Rising Edge) Switching Time (V =1.8V, PC-P6 Falling Edge) SCLK SCLK Arb. Unit 2.12 s Arb. Unit 2.6 s Port6 Port6 Time (4ns/div) Time (4ns/div) Operating Current vs. Supply Voltage 1 (No RF Signal Input, Active Mode, V =1.8V) Operating Current ( A) 8 6 4 2 1 1.5 2 2.5 3 3.5 Supply Voltage (V) - 1 -

APPLICATN CIRCUIT (Top view) NOTE: No DC blocking capacitors are required for all RF ports unless DC is biased externally. PARTS LIST Part ID Value Notes C1 1 pf MURATA (GRM15) C2 1 pf MURATA (GRM15) - 11 -

EVALUATN BOARD (Top view) P2 V SDATA SCLK MIPI SELECT V P1 PCB: FR-4, t=.2mm C2 Micro strip line width=.38mm (Z =5 ) C1 PCB Size=38.5 x 38.5mm P4 P3 Through-hole diameter:.2mm LOSS OF PCB AND CONNECTORS P6 1Pin INDEX P5 Frequency(GHz).9 1.9 Loss(dB) P1, P2, P5, P6 P3, P4.34.33.61.57 2.7.81.75 PC < PCB LAYOUT GUIDELINE> PCB PKG Terminal PKG Outline GND Via Hole Diameter =.2mm PRECAUTNS [1] No DC blocking capacitors are required for all RF ports unless DC is biased externally. [2] To reduce strip line influence on RF characteristics, please locate the bypass capacitor C1 and C2 close to V and V terminal. [3] For good isolation, the GND terminals must be connected to the PCB ground plane of substrate, and the through-holes connecting the backside ground plane should be placed near by the pin connection. - 12 -

RECOMMENDED FOOTPRINT PATTERN (EQFN14-ER PACKAGE Reference) PCB METAL LAND PATTERN Unit : mm PCB SOLDER MASK PATTERN (SOLDER RESIST) PCB STENCIL PATTERN (Metal mask thickness:1μm) - 13 -

PACKAGE OUTLINE <TOP VIEW> <SIDE VIEW> <BOTTOM VIEW> Terminal Treat Board Molding Material Weight Unit : SnBi : Copper : Epoxy resin : 4.7mg : mm - 14 -

[ CAUTN ] 1. New JRC strives to produce reliable and high quality semiconductors. New JRC's semiconductors are intended for specific applications and require proper maintenance and handling. To enhance the performance and service of New JRC's semiconductors, the devices, machinery or equipment into which they are integrated should undergo preventative maintenance and inspection at regularly scheduled intervals. Failure to properly maintain equipment and machinery incorporating these products can result in catastrophic system failures 2. The specifications on this datasheet are only given for information without any guarantee as regards either mistakes or omissions. The application circuits in this datasheet are described only to show representative usages of the product and not intended for the guarantee or permission of any right including the industrial rights. All other trademarks mentioned herein are property of their respective companies. 3. To ensure the highest levels of reliability, New JRC products must always be properly handled. The introduction of external contaminants (e.g. dust, oil or cosmetics) can result in failures of semiconductor products. 4. New JRC offers a variety of semiconductor products intended for particular applications. It is important that you select the proper component for your intended application. You may contact New JRC's Sale's Office if you are uncertain about the products listed in this catalog. 5. Special care is required in designing devices, machinery or equipment which demand high levels of reliability. This is particularly important when designing critical components or systems whose failure can foreseeably result in situations that could adversely affect health or safety. In designing such critical devices, equipment or machinery, careful consideration should be given to amongst other things, their safety design, fail-safe design, back-up and redundancy systems, and diffusion design. 6. The products listed in the catalog may not be appropriate for use in certain equipment where reliability is critical or where the products may be subjected to extreme conditions. You should consult our sales office before using the products in any of the following types of equipment. Aerospace Equipment Equipment Used in the Deep sea Power Generator Control Equipment (Nuclear, Steam, Hydraulic) Life Maintenance Medical Equipment Fire Alarm/Intruder Detector Vehicle Control Equipment (airplane, railroad, ship, etc.) Various Safety devices 7. New JRC's products have been designed and tested to function within controlled environmental conditions. Do not use products under conditions that deviate from methods or applications specified in this catalog. Failure to employ New JRC products in the proper applications can lead to deterioration, destruction or failure of the products. New JRC shall not be responsible for any bodily injury, fires or accident, property damage or any consequential damages resulting from misuse or misapplication of its products. Products are sold without warranty of any kind, either express or implied, including but not limited to any implied warranty of merchantability or fitness for a particular purpose. 8. Warning for handling Gallium and Arsenic(GaAs) Products (Applying to GaAs MMIC, Photo Reflector). This Products uses Gallium(Ga) and Arsenic(As) which are specified as poisonous chemicals by law. For the prevention of a hazard, do not burn, destroy, or process chemically to make them as gas or power. When the product is disposed, please follow the related regulation and do not mix this with general industrial waste or household waste. 9. The product specifications and descriptions listed in this catalog are subject to change at any time, without notice. - 15 -

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