Specification For Model Name : Customer : Title: Name : APPROVED By Date : Signature : RN2 Technologies co., Ltd. RN2 Technologies co., Ltd. 284-2, Galgot-ri, Jinwe-myeon, Pyeongtaek-si, Kyunggi-do, KOREA Phone : (+82) 31-376 - 5400 FAX : (+82) 31-376 - 9151 Issued Date : Designed : Approved :
2 / 16 1. Description 1-1. Part number: (Denoted marking:rcp0q2p5) 1-2. Features - Doherty Coupler - Surface mount type - Suitable for operation frequency 2300 ~ 2700MHz - RoHS compliance - High stability in temperature and humidity for LTCC base - Low loss for Silver(Ag) conductor - Miniature size and high power capability - Lead-free alloy solderable - Thermal expansion corresponding with common substrate 2. Electrical Specification Freq. Coupling Isolation Insertion Loss (MHz) (db) Max (db) min (db) 2300-2700 2.4 ± 0. -20-0.2 VSWR Phase Power Capacity Operating Temp. Max (degrees) Avg. (Watt) ( ) 1.2 90 ± 3.0 80 to +
3 / 16 3. Mechanical Specification 3-1. Outline Dimension PROJECTION NO. DATE 1 2 3 REVISION & DESCRIPTION SIGNATURE RCP0Q2P5 NO. DESCRIPTION TITLE 3-2. Weight - 0.14±10% Grams typical
4 / 16 4. Port Configuration Port 1 Port 2 RCP0Q2P5 Port 3 Port 4 Configuration Port 1 Port 2 Port 3 Port 4 Case 1. Input Isolated Coupled, 0 Output, -90 Case 2. Isolated Input Output, -90 Coupled, 0 Case 3. Coupled, 0 Output, -90 Input Isolated Case 4. Output, -90 Coupled, 0 Isolated Input * Once Port 1 is determined, the other three ports are defined automatically. 5. Schematic Drawing Port1 Pin Port2 Piso Pcou Port3 Pout Port4
5 / 16 6. Typical Performance Data ( ) Freq. Coupling Out IL Isolation Phase Return Loss [db] [MHz] [db] [db] [db] [db] [degree] S11 S22 S33 S44 2300-2.37-4.26-0.20-28.57-87.94-33.21-32.49-30.16-30.37 2320-2.37-4.24-0.19-29.15-87.86-33.64-33.23-30.64-30.62 2340-2.36-4.21-0.18-29.40-88.00-34.36-34.02-30.95-30.94 2360-2.34-4.20-0.16-29.17-88.24-35.28-34.97-31.04-31.28 2380-2.33-4.22-0.16-28.59-88.38-36.05-36.20-30.98-31.59 2400-2.35-4.26-0.19-28.15-88.35-36.64-37.47-30.87-32.04 2420-2.37-4.29-0.21-28.12-88.23-37.03-38.29-30.71-32.52 2440-2.36-4.28-0.20-28.54-88.13-37.51-38.96-30.73-33.23 2460-2.34-4.26-0.18-29.17-88.04-37.98-39.20-30.93-33.95 2480-2.34-4. -0.18-29.89-88.03-38.96-39.35-31.35-34.51 00-2.35-4.24-0.18-30.61-88.03-39.80-39.84-32.18-35.20 20-2.35-4. -0.19-31.28-88.17-40.55-40.59-33.26-35.78 40-2.36-4.26-0.20-31.86-88.20-40.91-41.26-34.71-36.18 60-2.36-4.27-0.20-32.41-88.28-40.83-41.64-36.14-36.66 80-2.36-4.28-0.20-33.04-88.14-40.15-41.67-37.23-37.33 2600-2.35-4.27-0.19-33.53-88.04-38.96-41.80-37.76-37.97 2620-2.36-4.26-0.20-33.89-87.96-37.68-42.16-38.06-38.57 2640-2.39-4. -0.21-34.18-87.91-36.34-42.66-38.07-39.30 2660-2.40-4. -0.22-34.79-88.03-35.02-42.83-38.00-40.01 2680-2.41-4.24-0.22-35.74-88.18-33.76-42.85-38.26-40.44 2700-2.40-4.24-0.21-37.01-88.32-32.60-42.59-38.68-40.90 * Data with PCB and Connector Loss ( 2.5 GHz = 0.1dB )
6 / 16 7. Operation Temperature Curve (a) 0-10 Port1 Returnloss 0-10 Port2 Returnloss Magnitude[dB] -20-30 Magnitude[dB] -20-30 -40-40 -50 2200 2300 2400 00 2600 2700 2800-50 2200 2300 2400 00 2600 2700 2800 0-10 Port3 Returnloss 0-10 Port4 Returnloss Magnitude[dB] -20-30 Magnitude[dB] -20-30 -40-40 -50 2200 2300 2400 00 2600 2700 2800-50 2200 2300 2400 00 2600 2700 2800
7 / 16 8. Operation Temperature Curve (b) -2.0-2.1-2.2 Coupling -3.4-3.6 Transmission Loss -2.3-3.8 Magnitude[dB] -2.4-2.5-2.6-2.7-2.8-2.9-3.0 2200 2300 2400 00 2600 2700 2800 Magnitude[dB] -4.0-4.2-4.4-4.6-4.8-5.0 2200 2300 2400 00 2600 2700 2800 0-10 Isolation 0.0-0.1-0.2 Insertion Loss -0.3 Magnituded[dB] -20-30 Magnitude[dB] -0.4-0.5-0.6-0.7-40 -50 2200 2300 2400 00 2600 2700 2800-0.8-0.9-1.0 2200 2300 2400 00 2600 2700 2800 Magnitude[degrees] -84-85 -86-87 -88-89 -90-91 -92-93 Phase Balance -94 2200 2300 2400 00 2600 2700 2800
8 / 16 9. Test Method - Refer to Case 1 of 4. Port Configuration on page 4 - Have the network analyzer calibrated properly. - Measure the data of Coupling through port 1 to port 3. (S31) - Measure the data of Transmission through port 1 to port 4. (S41) - Measure the data of Isolation through port 1 to port 2. (S21) - Calculate the Insertion Loss and Directivity of coupler on the below power method formula. S-Parameter[dB] Power Method[dB] P Coupling S31 cou 10 log Pin P Transmission Loss S41 out 10 log Pin P Isolation S21 iso 10 log Pin Insertion Loss Directivity Phase Balance Phase (S31) Phase (S41) 10 log P cou Pin + P Pcou 10 log Piso P in : Power of Input Port P out : Power of Output Port P cou : Power of Coupling Port P iso : Power of Isolated Port out
9 / 16 10. Measurement board layout PROJECTION No. 1 2 3 DATE REVISION & DESCRIPTION SIGNATURE REVIEWED CHECKED Through Via for connecting Bottom to GND Signal(50ohm) Line Top-GND No. DESCRIPTION UNIT TOTAL QUANTITY PERUNIT TOTAL TITLE Q size Coupler-Measuremnet Board Outline RN2 DWG No. SCALE SIZE A4 DIMENSION mm
10 / 16 11. Recommended PCB layout and Solder mask pattern PROJECTION No. 1 2 3 DATE REVISION & DESCRIPTION SIGNATURE REVIEWED CHECKED Attention: Solder Resistor Area Solder Resistor should be printed on the board. Solder Area('B') Solder Area('A') Coupler Outline 50ohm Signal Line Top-GND No. DESCRIPTION UNIT TOTAL QUANTITY PERUNIT TOTAL TITLE Q size - Recommended Solder Quantity &Area RN2 DWG No. SCALE SIZE A4 DIMENSION mm
11 / 16 12. Reflow profile Temp.[ ] 300 0 260 200 150 T1 T2 T3 T4 t4 Air 100 Coolin 50 t1 t2 t3 30 60 90 120 150 180 210 240 270 Time [sec] Ramp Up Pre-Heating Peak Soaking Temp.[ ] T1:160±5 T2:180±5 T4:260±5 T3:230±5 Time [sec] t1:60±5sec t2:100±15sec t3:30±5sec t4:60±10sec
12 / 16 13. Using note for LTCC Couplers I. Be careful when transporting A. Excessive stress or shock may make products broken or cracked due to the nature of ceramics structure. B. The products cracked or damaged on terminals may have their property changed. II. Be careful during storage A. Store the products in the temperature of ~ B. Keep the humidity at 45 ~ 75% around the products. C. Prevent corrosive gas (Cl 2, NH 3, SO X, NO X, etc.) from contacting the products. D. It is recommended to use the products within 6 months of receipt. If the period exceeds 6 months, solderability may need to be verified. III. Be careful when soldering A. All the ground terminals, IN and OUT pad of coupler should be soldered on the ground plane of the PCB. B. Products may be cracked or broken by uneven forces from a claw or suction device. C. Mechanical stress by any other devices may damage products when positioning them on PCB. D. A dropped product is recommended not to be used. E. Soldering must be carried out by the condition of specification sheet. F. Any couplers which are de-soldered from PCB should not be used again.
13 / 16 IV. Be careful when Screw V. Be careful when SMD or Assembly A. LTCC couplers require appropriate measures to avoid its base PCB from warping. B. PCB excessively warping over defined standard may result in crack of LTCC couplers potentially.
14 / 16 14. Packaging D0 P0=4±0.1 P2=2±0.1 E F t Model No. 5.2 W MIN10.00 B0 P=8±0.1 A0 K0 Feed Direction 330 A0 B0 D0 K0 5.5±0.10 6.8±0.10 1.55±0.05 1.87±0.10 E F t w 1.75±0.10 7.50±0.10 0.30±0.05 16.0±0.30
15 / 16 15. Environmental Reliability ITEM PROCEDURE REQUIREMENTS/RESULT 1. One Cycle : 30 min Step1: ± 5 C for 15 min Temperature Step2: ± 5 C for 15 min 1. Meet the electrical Specification Cycle 2. Approach high or low temperature in 10 seconds after test (Thermal Shock) 3. Number of Cycles : 100 4. Normal temperature for 1 hour 1. More than 85% of the I/O Solderability 1. Solder : 230 ± 5 C for 5± 1 sec. electrode pad shall be covered with solder. Heat Resistance 1. Temperature : 100 ± 2 C 1. Meet the electrical Specification 2. Duration : 96 ± 2 hours after test Low Temp. Resistance 1. Temperature : ± 5 C 2. Duration : 24 ± 2 hours 1. Meet the electrical Specification after test 1. Frequency: 5~ 15MHz 1. No appearance damage Vibration 2. Acceleration : 10g 2. Meet the electrical Specification Resistance 3. Sweep Time: 0.1 oct/min, 15min/axis after test 4. Axis : X, Y and Z direction Humidity Resistance Drop Shock 1. One Cycle : Step1:increase Temperature -~65 C for 2hours with humidity 85% Step2:Maintain for 4 hour after increasing Humidity 90% to 95% Step3: Decrease Temperature 65 C to C 2. Number of Cycles : 10 3. Maintain for 3hour after decreasing temperature -10 C 1. Dropped onto hard wood from height of 50 cm for 5 times; each x, y and z direction except I/O direction. 1. Meet the electrical Specification after test 1. No appearance damage 2. Meet the electrical Specification after test
16 / 16 16. RoHS test result - RN2 Technologies warrants and represents as follows.