4 Watt Sine Wave Telephone Ring Generator 4REN@86Vrms to 12REN@45Vrms PCR-SIN06 Series ◊ PCR-SIN06V12F00 ◊ PCR-SIN06V24F00 ◊ PCR-SIN06V48F00 ◊ PCR-SIN06V12F00-L 9 PCR-SIN06 Series 4REN@86Vrms to 12REN@45Vrms SINE WAVE TELEPHONE RING GENERATOR TYPICAL APPLICATION 1 Floating Output Configuration V(+) APPLICATIONS ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ O1 Inhibit OHD SYNC V(-) Frequency Control Ring Generator Output PCR-SIN06 O2 RAOC PBX, PABX, DLC and Key Systems Rural Telephony Systems Wireless Local Loop Systems Satellite Telephone and VSAT Terminal Integrated Access Devices VoIP Gateways Test Equipment Short/Long Loop Applications DESCRIPTION The PCR-SIN06 Ring Generator Series offers a line of high performance, low cost ring generators with an advanced constant output power driving stage. The series consists of ring generators for input voltages of 12, 24 and 48Vdc, and each unit supports all popular ringing frequencies: 16.7, 20, 25 and 50Hz. The PCR-SIN06 Ring Generator can continuously support up to 12 standard North American REN loads, providing a low THD sine wave ringing signal. Overload Protection Loads that exceed the number of REN that the unit is set to support, according to the preset output voltage, will momentarily clamp the output sine wave, and trigger the ring generator’s overload protection. The overload protection constantly monitors the output distortion level, and automatically reduces the output amplitude in order to maintain a low distortion level. This function allows the Ring Generator to provide continuous service to up to 12 North American REN loads. The new output amplitude will match the load, according to the following table: Output Ringing Amplitude 86 Vrms 75 Vrms 70 Vrms 60 Vrms 50 Vrms 45 Vrms Short Circuit Protection Active Load [1REN = 6930Ω Ω +8µ µF] 4REN 5REN 6REN 8REN 10REN 12REN >>12REN Output Short Circuit Protection Loads that excessively exceed 12REN trigger an internal protection that monitors the ring generator input current. When the input current threshold is exceeded for approximately 600mSec, the protection automatically shuts off the ring generator’s output. After the output has been off for 5 seconds, normal operation will automatically resume, depending on the existing load condition. PowerDsine Ltd. PowerDsine, Inc. PowerDsine Europe 10 100-470µ µF F0 OAC Vin F1 Support 4-12 standard North American REN Adjustable Output Voltage between 45-86Vrms Wide DC Voltage Input range Overload Control with Constant Output Power Output Short Circuit Protection Digital Frequency Selection (16.7, 20, 25, 50Hz) Zero Crossing Synchronization Output Signal High Output Load Indication Signal Low THD Sine Wave Output Fully Floating Output UL1950, CSA C22.2 No. 950 & EN60950 Approved 90 Days Warranty Open Frame Package Set Output to 76-86Vrms ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ Set Output to 45-75Vrms FEATURES Output Amplitude Control The output ringing signal amplitude nominal value can be adjusted in the range of 45-86Vrms and defaults to 75Vrms @ 5 North American REN load, when the OAC terminal is left unconnected. Each nominal output amplitude is designed to support a certain nominal REN load according to the above table. Output amplitudes in the range of 75-86Vrms can be set by connecting an external resistor, ROAC, between the OAC terminal and V(-). Output amplitudes in the range of 45-75Vrms can be set by connecting an external resistor, ROAC, between the OAC terminal and V(+). For the ROAC value, refer to the OUTPUT AMPLITUDE ADJUSTMENT graphs on page 16. Inhibit Control The Inhibit terminal functions to shut down the output and reduces the ring generator’s current consumption to an idling level. The Inhibit terminal is operated by 5V TTL logic levels referenced to the V(-) terminal. When this input is disconnected or tied to a TTL low level, the output is enabled. An internal synchronization circuitry delays the Inhibit action until the sine wave output signal crosses the zero level. Note that the Inhibit control can be used to generate the ringing signal’s on/off intervals. In negatively fed applications, were the ring generator’s V(+) input is attached to the system’s ground, and the V() input is attached to a negative 12V, 24V or 48V, the inhibit terminal should need a negative 7V, 19V or 43V (5V in reference to V(-)) to operate. Please refer to Typical Application 3, which illustrates a suggested circuit for converting the system digital 5V level to the appropriate negative voltages. In cases where the Inhibit is operated via a long conductor, which may pickup radiated noise, a 0.1µF filtering capacitor should be connected between the Inhibit and the V(-) terminals. The filtering capacitor should be physically placed as close as possible to the ring generator module. Inhibit control eliminates the need for additional external components in cadence implementation. Tel: +972-9-775-5100 • Fax: +972-9-775-5111 • Email: [email protected] Tel: +1-631-756-4680 • Fax: +1-631-756-4691 • Email: [email protected] Tel: +49-6187-900-849 • Fax: +49-6187-292848 • Email: [email protected] PCR-SIN06 Series 4REN@86Vrms to 12REN@45Vrms SINE WAVE TELEPHONE RING GENERATOR Zero Crossing Synchronization Output The SYNC output provides a high TTL level pulse to indicate the AC output voltage zero crossing, relative to the output sine wave. This is useful for prolonging relay life by timing switching with the ringing signal zero crossing. The SYNC signal rises to a high TTL level, referenced to V(-), 2.5mSec prior to the zero crossing and remains at high level for about 5mSec. When the unit is set at a ringing frequency of 50Hz, the SYNC signal rises to a high TTL level 2.0mSec prior to the zero crossing and remains at high level for 4mSec. High Load Indication The OHD output terminal provides indication of output overload. This feature is useful for implementation of low cost Off-Hook detection in a single port per ring generator application. When the output signal is activated and the output is loaded by more than 3Watt, the OHD terminal will provide a high TTL logic level, referenced to V(-). This signal will remain as high level until the overload condition is removed. This indication can be useful in order to keep the ring generator within certain output voltage specifications by managing the output load. Output DC Biasing The ring generator’s output is isolated and floating and may be superimposed on negative or positive DC voltage. When this DC bias option is utilized (see Typical Application 2), a series protection resistor should be added in series to each port (i.e. telephone extension). This assures that the DC current through the ring generator output stage is limited to 160mAdc maximum should the output be shorted. The recommended minimum value for these series resistors is proportionate to the DC bias. Output Frequency Control Each PCR-SIN06 ring generator supports four popular output frequencies: 16.7, 20, 25 and 50Hz. The frequency selection is controlled by jumpering the F0 and F1 control pins to V(-), according to the following table: Output DC Bias ± 12Vdc ± 24Vdc ± 48Vdc ± 75Vdc Protection Series Resistor 82Ω 150Ω 300Ω 470Ω When using the same power supply output for powering the Ring Generator and for biasing the output ringing signal, high frequency switching noise from the ring generator input may be conducted to the load via the Talk Battery line. In this event, an optional filter consisting of a 22-100µF capacitor and a 10-20Ω resistor should be added. Input Voltage Supply The PCR-SIN06 Series Ring Generator has a wide range of input voltage capabilities. These capabilities are achieved by utilizing a sophisticated fit forward topology, which continuously samples the ring generator input voltage. The internal switching power supply is regulated, based on the input voltage samples, in order to produce accurate and stable output amplitude. In order to prevent input voltage ripple from contaminating the ring generator’s output, it is essential that the input’s low frequency ripple be restrained. Acceptable ripple levels for each input voltage are indicated in the Electrical Specifications table. High frequency input ripple, originated by the 100kHz internal switching power supply, can be reduced by connecting an input capacitor, as illustrated in the typical applications. Frequency 16.7Hz 20Hz 25Hz 50Hz F1 “0” or tied to V(-) “1” or not connected “1” or not connected “0” or tied to V(-) F0 “1” or not connected “1” or not connected “0” or tied to V(-) “0” or tied to V(-) The F0 and F1 terminals are pulled up to an internal 5V source in reference to the V(-) terminal. For digital frequency control, use either an open collector or an opto-coupler driver. When utilizing digital frequency control or frequency setup jumpers that are connected via long conductors to the ring generator, the addition of two 47nF noise filtering capacitors between F0 and the V(-) and between the F1 and the V(-) terminals is advised. The 47nF capacitors should be placed as close as possible to the terminals. Without the capacitors, the module may be subject to interference. Frequency changes take effect at start-up by power connection or by the Inhibit control. Frequency setup changes while the output is on may disturb normal operation. V(+) O1 100-470µF PCR-SIN06 V(-) F0 F1 O2 47nF 47nF TYPICAL APPLICATION 2 Output AC is superimposed on DC bias 10-20Ω V(+) Vin 12/24 or 48Vdc 22-100µF PCR-SIN06 V(-) Do not change the frequency setup (F1,F0) while the ring generator output is enabled. O1 100-470 µF F1 F0 OHD OAC Inhibit O2 Telephone Ports Series Protection Resistors PCR-SIN06 Series 11 PCR-SIN06 Series 4REN@86Vrms to 12REN@45Vrms SINE WAVE TELEPHONE RING GENERATOR TEST SETUP A Vin V(+) 100µF@48Vin 330µF@24Vin 470µF@12Vin 1.4KΩ 600Ω 10Ω V PCR-SIN06 47nF V(-) F1 F0 +5V O1 D O2 OAC (not connected) 0.1µF Inhibit OHD SYNC TYPICAL APPLICATION 3 - INHIBIT CONTROL FOR NEGATIVE FED CONFIGURATION +5V Inhibit Control 47KΩ +5V referenced to GND 5V −> Output On 0V −> Output Off PNP Transistor V(+) 20KΩ PCR-SIN06 GND O1 Inhibit Zener Diode 4.7-5.1V 0.1µ F V(-) O2 -Vin (-12/-24/-48V) SAFETY INSTRUCTIONS 1. 2. 3. When applicable, protection from excessive voltage on the output should be tested in end-use equipment. For output voltage exceeding 80Vrms, compliance with the ringing signal requirements should be tested in end-use equipment. When output voltage is set to less than 80Vrms, ringing signal complies with M.2 requirements of IEC950. For PCR-SIN06V48F00 only: For EN60950 compliance in countries outside North America, input voltage (nominal 48Vdc, tolerance 3672Vdc) must be supplied by an isolated DC source complying with the earthed SELV or TNV requirements of the latest version of EN60950. PowerDsine Ltd. PowerDsine, Inc. PowerDsine Europe 12 Tel: +972-9-775-5100 • Fax: +972-9-775-5111 • Email: [email protected] Tel: +1-631-756-4680 • Fax: +1-631-756-4691 • Email: [email protected] Tel: +49-6187-900-849 • Fax: +49-6187-292848 • Email: [email protected] • These are stress ratings. Exposure of the device to any of these conditions may adversely effect longterm reliability. Proper operation other than as specified in the PERFORMANCE/FUNCTIONAL SPECIFICATIONS is not implied. PCR-SIN06V12F00 & PCR-SIN06V12F00-L 4REN@86Vrms to 12REN@45Vrms SINE WAVE TELEPHONE RING GENERATOR ABSOLUTE MAXIMUM RATINGS• Supply Voltage Inhibit, F1 and F0 Input Voltage Operating Ambient Temperature (TA) Storage Temperature Lead Temperature (Soldering, 10 sec max.) ............. ............. ............. ............. ............. +18V -0.5V to +5.2V -40°C to +85°C -40°C to +90°C +300°C PERFORMANCE / FUNCTIONAL SPECIFICATIONS Typical at: TA = +25°C, Vin = 12.0Vdc, Load=1400Ω resistive, Cin = 470µF, OAC not connected, according to the Test Setup schematics. Parameters Conditions Min Typ Max Units Supply Supply Voltage (Vin) 7.2 12.0 15.0 Vdc Input Reflected Ripple 1.0 Vp-p 100-120Hz, 9.6≤Vin≤15.0Vdc Current Consumption Average Current 25 mA Device Inhibited Average Current 120 160 mA No Load Average Current 650 mA Load=1400Ω, @ Vin=9.6Vdc Peak Current 1.2 A Load≤1400Ω, @ Vin=9.6Vdc Efficiency 63 70 % Load=1400Ω Output Power Continuous Loading 0 4 VA Power Factor 0.7 |cos ρ| Output Voltage Pout=3VA, 9.6≤Vin≤15.0Vdc OAC not connected 70 75 82 Vrms ROAC between OAC & V(-) 75-86 Vrms See graph on page 16 ROAC between OAC & V(+) 45-75 Vrms See graph on page 16 16.7, 20, Output Frequency Hz According to F0, F1 setting 25, 50 Frequency Accuracy % ±3 9.6≤Vin≤15.0Vdc, 0≤Pout≤4VA, -40°C ≤TA≤+85°C THD % 5 9.6≤Vin≤15.0Vdc, 0≤Pout≤4VA, -40°C ≤TA≤+85°C Inhibit Control Input Disable Voltage VIH 3.5 5 5.2 Vdc Enable Voltage VIL -0.5 0 1.0 Vdc Iin Source VIL = 0V 50 µA Iin Sink VIH = 5V 700 µA F0, F1 Control Input According to F0, F1 setting 3.5 5.2 VIH Vdc VIL -0.5 1.0 Vdc Iin Source 700 VIL = 0V µA Timing Inhibit Response Time to Turn-On 30 50 ms Time to Turn-Off 35 ms Overload Protection Response Output Overloaded Time to Turn-Off 200 600 800 ms Time to Turn-On 5 s Load reverts to Normal, 0≤Pout≤4VA General Insulation 500 Vdc Input to Output 40 MΩ Switching Frequency 96 kHz Environment Relative Humidity Non-Condensing, Per IEC 68-2-56 93 % Ambient Temperature (TA) Without Derating -40 +50 °C -40 +85 Derated from +50°C by 0.1W/°C °C Reliability Continuous Operation@40°C Ambient Temperature Calculated MTBF 2,039,305 Hours Calculation method: Relex Bellcore Software Ver5.30 Sync Output Timing SYNC Pulse Width Output Frequency=16.7,20, 25 Hz 4.5 5.5 ms Output Frequency=50 Hz 3.6 4.4 ms OHD Output Timing Off-Hook Response Time Output Overloaded 40 ms OHD, Sync Output Referenced to V(-) Terminal VOH Output Source Current 2mA 4.2 5.3 Vdc VOL Output Sink Current 2mA 0 0.8 Vdc VOL Output Sink Current 5mA 0 1.2 Vdc PCR-SIN06 Series 13 • These are stress ratings. Exposure of the device to any of these conditions may adversely effect longterm reliability. Proper operation other than as specified in the PERFORMANCE/FUNCTIONAL SPECIFICATIONS is not implied. PCR-SIN06V24F00 4REN@86Vrms to 12REN@45Vrms SINE WAVE TELEPHONE RING GENERATOR ABSOLUTE MAXIMUM RATINGS• Supply Voltage Inhibit, F1 and F0 Input Voltage Operating Ambient Temperature (TA) Storage Temperature Lead Temperature (Soldering, 10 sec max.) ............. ............. ............. ............. ............. +35V -0.5V to +5.2V -40°C to +85°C -40°C to +90°C +300°C PERFORMANCE / FUNCTIONAL SPECIFICATIONS Typical at: TA = +25°C, Vin = 24.0Vdc, Load=1400Ω resistive, Cin = 330µF, OAC not connected, according to the Test Setup schematics. Parameters Conditions Min Typ Max Units Supply Supply Voltage (Vin) 19.2 24.0 30.0 Vdc Input Reflected Ripple 1.5 Vp-p 100-120Hz, 19.2≤Vin≤30.0Vdc Current Consumption Average Current 24 mA Device Inhibited Average Current 80 100 mA No Load Average Current 370 mA Load=1400Ω, @ Vin=19.2Vdc Peak Current 800 mA Load≤1400Ω, @ Vin=19.2Vdc Efficiency 64 72 % Output Power Continuous Loading 0 5 VA Power Factor 0.7 |cos ρ| Output Voltage Pout=3VA, 19.2≤Vin≤30.0Vdc OAC not connected 70 75 82 Vrms ROAC between OAC & V(-) 75-86 Vrms See graph on page 16 ROAC between OAC & V(+) 45-75 Vrms See graph on page 16 16.7, 20, Hz Output Frequency According to F0, F1 setting 25, 50 % Frequency Accuracy ±3 19.2≤Vin≤30.0Vdc, 0≤Pout≤5VA, -40°C ≤TA≤+85°C % THD 5 19.2≤Vin≤30.0Vdc, 0≤Pout≤5VA, -40°C ≤TA≤+85°C Inhibit Control Input Disable Voltage VIH 3.5 5 5.2 Vdc Enable Voltage VIL -0.5 0 1.0 Vdc Iin Source VIL = 0V 50 µA Iin Sink VIH = 5V 700 µA F0, F1 Control Input According to F0, F1 setting 3.5 5.2 VIH Vdc VIL -0.5 1.0 Vdc Iin Source 700 VIL = 0V µA Timing Inhibit Response Time to Turn-On 30 50 ms Time to Turn-Off 35 ms Overload Protection Response Time to Turn-Off Output Overloaded 200 600 800 ms Time to Turn-On 5 s Load reverts to Normal; 0≤Pout≤5VA General Insulation 500 Vdc Input to Output 40 MΩ Switching Frequency 96 kHz Environment Relative Humidity Non-Condensing, Per IEC 68-2-56 93 % Ambient Temperature (TA) Without Derating -40 +50 °C -40 +85 Derated from +50°C by 0.1W/°C °C Reliability Continuous Operation@30°C Ambient Temperature Calculated MTBF 2,039,305 Hours Calculation method: Relex Bellcore Software Ver5.30 Sync Output Timing SYNC Pulse Width Output Frequency=16.7,20, 25 Hz 4.5 5.5 ms Output Frequency=50 Hz 3.6 4.4 ms OHD Output Timing Off-Hook Response Time Output Overloaded 40 ms OHD, Sync Output Referenced to V(-) Terminal VOH Output Source Current 2mA 4.2 5.3 Vdc VOL Output Sink Current 2mA 0 0.8 Vdc VOL Output Sink Current 5mA 0 1.2 Vdc PowerDsine Ltd. PowerDsine, Inc. PowerDsine Europe 14 Tel: +972-9-775-5100 • Fax: +972-9-775-5111 • Email: [email protected] Tel: +1-631-756-4680 • Fax: +1-631-756-4691 • Email: [email protected] Tel: +49-6187-900-849 • Fax: +49-6187-292848 • Email: [email protected] • These are stress ratings. Exposure of the device to any of these conditions may adversely effect longterm reliability. Proper operation other than as specified in the PERFORMANCE/FUNCTIONAL SPECIFICATIONS is not implied.PCR-SIN06V48F00 4REN@86Vrms to 12REN@45Vrms SINE WAVE TELEPHONE RING GENERATOR ABSOLUTE MAXIMUM RATINGS• Supply Voltage Inhibit, F1 and F0 Input Voltage Operating Ambient Temperature (TA) Storage Temperature Lead Temperature (Soldering, 10 sec max.) ............. ............. ............. ............. ............. +75V -0.5V to +5.2V -40°C to +85°C -40°C to +90°C +300°C PERFORMANCE / FUNCTIONAL SPECIFICATIONS Typical at: TA = +25°C, Vin = 48.0Vdc, Load=1400Ω resistive, Cin = 100µF, OAC not connected, according to the Test Setup schematics. Parameters Conditions Min Typ Max Units Supply For Vin higher than 60Vdc refer to Safety Instruction 3 on page 12. 36.0 48.0 72.0 Vdc Supply Voltage (Vin) 100-120Hz, 36≤Vin≤72.0Vdc 2.0 Vp-p Input Reflected Ripple Current Consumption Device Inhibited 4 mA Average Current No Load 45 60 mA Average Current Load=1400Ω, @ Vin=36Vdc mA Average Current 180 Load≤1400Ω, @ Vin=36Vdc mA Peak Current 350 Efficiency 60 70 % Load=1400Ω Output Power Continuous Loading 0 4 VA Power Factor 0.7 |cos ρ| Output Voltage Pout=3VA, 36.0≤Vin≤72.0Vdc OAC not connected 70 75 82 Vrms ROAC between OAC & V(-) 75-86 Vrms See graph on page 16 ROAC between OAC & V(+) 45-75 Vrms See graph on page 16 16.7, 20, According to F0, F1 setting Hz Output Frequency 25, 50 % Frequency Accuracy ±3 36≤Vin≤72.0Vdc, 0≤Pout≤4VA, -40°C ≤TA≤+85°C % THD 5 36≤Vin≤72.0Vdc, 0≤Pout≤4VA, -40°C ≤TA≤+85°C Inhibit Control Input Disable Voltage VIH 3.5 5 5.2 Vdc Enable Voltage VIL -0.5 0 1.0 Vdc Iin Source 50 VIL = 0V µA VIH = 5V Iin Sink 700 µA F0, F1 Control Input According to F0, F1 setting VIH 3.5 5.2 Vdc VIL -0.5 1.0 Vdc Iin Source VIL = 0V 700 µA Timing Inhibit Response Time to Turn-On 30 50 ms Time to Turn-Off 35 ms Overload Protection Response Time to Turn-Off Output Overloaded 200 600 800 ms Time to Turn-On 5 s Load reverts to Normal; 0≤Pout≤4VA General Insulation 500 Vdc Input to Output 40 MΩ Switching Frequency 96 kHz Environment Relative Humidity Non-Condensing, Per IEC 68-2-56 93 % Ambient Temperature (TA) Without Derating -40 +50 °C -40 +85 Derated from +50°C by 0.1W/°C °C Reliability Continuous Operation@30°C Ambient Temperature Calculated MTBF 2,039,305 Hours Calculation method: Relex Bellcore Software Ver5.30 Sync Output Timing SYNC Pulse Width Output Frequency=16.7,20, 25 Hz 4.5 5.5 ms Output Frequency=50 Hz 3.6 4.4 ms OHD Output Timing Off-Hook Response Time Output Overloaded 40 ms OHD, Sync Output Referenced to V(-) Terminal VOH Output Source Current 2mA 4.2 5.3 Vdc VOL Output Sink Current 2mA 0 0.8 Vdc VOL Output Sink Current 5mA 0 1.2 Vdc PCR-SIN06 Series 15 PCR-SIN06 Series 4REN@86Vrms to 12REN@45Vrms SINE WAVE TELEPHONE RING GENERATOR OUTPUT AMPLITUDE ADJUSTMENT PCR-SIN06V12F00 & PCR-SIN06V12F00-L PCR-SIN06V12F00 & PCR-SIN06V12F00-L Roac for Vout=75-86Vrms @ 3REN Load PCR-SIN06V12F00 & PCR-SIN06V12F00-L Roac for Vout=45-75Vrms @ 3REN Load 1200 50 45 40 1000 35 Roac [KΩ ] Roac [KΩ ] 800 600 400 30 25 20 15 10 200 5 0 0 45 50 55 60 65 70 76 75 77 78 79 80 81 82 83 84 85 86 87 Vout [Vrms] Vout [Vrms] RAOC connected between the OAC and the V(+) terminals RAOC connected between the OAC and the V(-) terminals PCR-SIN06V24F00 PCR-SIN06V24F00 Roac for Vout=75-86Vrms @ 3REN Load PCR-SIN06V24F00 Roac for Vout=45-75Vrms @ 3REN Load 800 700 Roac [KΩ ] Roac [KΩ ] 600 500 400 300 200 100 0 45 50 55 60 65 70 40 37.5 35 32.5 30 27.5 25 22.5 20 17.5 15 12.5 10 7.5 5 2.5 0 76 75 77 78 79 80 81 82 83 84 85 86 87 Vout [Vrms] Vout [Vrms] RAOC connected between the OAC and the V(+) terminals RAOC connected between the OAC and the V(-) terminals PCR-SIN06V48F00 PCR-SIN06V48F00 Roac for Vout=75-86Vrms @ 5REN Load PCR-SIN06V48F00 Roac for Vout=45-75Vrms @ 5REN Load 650 600 7000 550 6000 500 450 Roac [KΩ ] Roac [KΩ ] 5000 4000 3000 400 350 300 250 200 2000 150 100 1000 50 0 0 45 50 55 60 65 70 75 76 RAOC connected between the OAC and the V(+) terminals PowerDsine Ltd. PowerDsine, Inc. PowerDsine Europe 16 77 78 79 80 81 82 83 84 85 86 Vout [Vrms] Vout [Vrms] RAOC connected between the OAC and the V(-) terminals Tel: +972-9-775-5100 • Fax: +972-9-775-5111 • Email: [email protected] Tel: +1-631-756-4680 • Fax: +1-631-756-4691 • Email: [email protected] Tel: +49-6187-900-849 • Fax: +49-6187-292848 • Email: [email protected] 87 PCR-SIN06 Series 4REN@86Vrms to 12REN@45Vrms SINE WAVE TELEPHONE RING GENERATOR MECHANICAL DETAILS PCRPCR-SIN06V12F00/ PCRPCR-SIN06V24F00/ PCRPCR-SIN06V48F00 Side View Open Frame E D mm Inch A 41.00 Max 1.61" Max B 35.56±0.25 1.40"±0.01" Terminals 0.035±0.0006" DIA (0.9 ±0.15mm) Recommended PCB Drill DIA 0.05" (1.2mm) Bottom View C 5.08±0.25 0.20"±0.01" D 3.30±0.25 0.13"±0.01" A B V(+) O1 OAC E 12.70±0.50 C 0.50"±0.02" A B Inhibit F1 B F0 OHD SYNC V(-) O2 PCR-SIN06 Series 17 PCR-SIN06V12F00-L 4REN@86Vrms to 12REN@45Vrms SINE WAVE TELEPHONE RING GENERATOR MECHANICAL DETAILS PCRPCR-SIN06V12F00SIN06V12F00-L Side View Open Frame E D Inch mm A 41.00 Max 1.61" Max B 35.56±0.25 1.40"±0.01" Terminals 0.035±0.0006" DIA (0.9 ±0.15mm) Recommended PCB Drill DIA 0.05" (1.2mm) Bottom View C 5.08±0.25 0.20"±0.01" D 6.76±0.1 0.27"±0.05" A B V(+) O1 OAC E 12.70±0.50 C 0.50"±0.02" A B Inhibit F1 B F0 OHD SYNC V(-) PCR-SIN06 Series V18 1200 PowerDsine Ltd. PowerDsine, Inc. PowerDsine Europe 16 Tel: +972-9-775-5100 • Fax: +972-9-775-5111 • Email: [email protected] Tel: +1-631-756-4680 • Fax: +1-631-756-4691 • Email: [email protected] Tel: +49-6187-900-849 • Fax: +49-6187-292848 • Email: [email protected] O2