GS70T300

GS70/100T300 Family 70W/100W DC-DC CONVERTERS FAMILY Type GS70T300-3.5 GS100T300-5 GS100T300-12 GS100T300-15 GS100T300-24 GS100T300-48 Vi 200 to 400 V 200 to 400 V 200 to 400 V 200 to 400 V 200 to 400 V 200 to 400 V Vo 3,5 V 5,2 V 12,0 V 15,0 V 24,0 V 48,0 V Io 20 A 20 A 8,3 A 6,6 A 4,2 A 2,0 A FEATURES High input voltage range bus: 200 to 400Vdc UL, TUV approved High output power (up to 100W) High efficiency (80% min. on GS100T300-5 module) Output voltages range: 3.5-5.2-12-15-24and 48V Output voltage adjustable by external pin Remote load voltage sense compensation Output short-circuit protection Output overvoltage protection Undervoltage lock-out Minimal overshoot during load transients 3750VRMS input to output isolation voltage Internal input and output filtering Softstart PCB or chassis mountable Mechanical Dimensions 101,6 • 50,8 • 20 mm (4,00 • 2,00 • 0,79 inches) DESCRIPTION The GS70/100T300 family includes 70/100W DCDC converters used to generate isolated output voltages with an output current up to 20A from a wide range input voltage (200 to 400Vdc). All the GS70/10 0T300 family modules require an external fuse (1 Amps.) on the input side. June 1994 1/10 GS70/100T300 Family GS70T300-3.5ELECTRICAL CHARACTERISTICS (Tamb = 25°C unless otherwise specified) Symbol Vi Qi Pi Vo Vo Vorn Vol δVOL δVOO ∆ Vo δ Vo SVR Io IoI Iosc ts ton Vis Parameter Input Voltage Inrush Charge Input Power Output Voltage Output Voltage Range Output Ripple and Noise Voltage Output Overvoltage Limit Initiation Line Regulation Load Regulation Total Remote Sense Compensation Peak Load Transient Response Supply Voltage Rejection Output Current Overcurrent Limit Initiation Shortcircuit Output Current Load Transient Settling Time Turn-on Time Isolation Voltage Test Conditions Vo = 3.5V Io = 0 to 20A (Operating Conditions) Vi = 400V Io = 20A Vi = 300V Io = 0A (No Load) 3.43 1.75 35 BW = 0 to 20Mhz 1.2•Vo ± 0.1 ± 0.1 0.6 500 55 0 21 18 δIo = 10A Io = 20A 3750 2500 500 150 78 79 7.5 0 – 40 +70 +100 kHz % °C/W °C °C 23 23 300 6 10 20 25 28 V % % V mVp dB A A A µs ms VRMS Min 200 Typ 300 40•10 2.5 3.5 3.57 3.5 40 -6 Max 400 Unit VDC C W V V mVpp Vi = 200 to 400V Io = 0 to 20A Vi = 200 to 400V Io = 0 to 20A (see fig. 2) Vi = 300V Io = 20A Vi = 200 to 400V Io = 0 to 20A Vi = 200 to 400V Io = 20A Vi = 300V Io = 0 to 20A Vi = 200 to 400V Vi = 300V f = 100Hz Vi = 200 to 400V Vo = 3.3V Vi = 300V Vi = 300V Vi = 300V Vi = 200V δIo = 10A Input to Output Input to Baseplate Output to Baseplate fs η R th Tcop Tstg Switching Frequency Efficiency Thermal Resistance Operating Case Temperature Range Storage Temperature Range Vi = 200 to 400V Io = 0 to 20A Vi = 300V Io = 20A Baseplate to Ambient 2/10 GS70/100T300 Family GS100T300-5 ELECTRICAL CHARACTERISTICS (Tamb = 25°C unless otherwise specified) Symbol Vi Qi Pi Vo Vo Vorn Vol δVOL δVOO ∆ Vo δ Vo SVR Io IoI Iosc ts ton Vis Parameter Input Voltage Inrush Charge Input Power Output Voltage Output Voltage Range Output Ripple and Noise Voltage Output Overvoltage Limit Initiation Line Regulation Load Regulation Total Remote Sense Compensation Peak Load Transient Response Supply Voltage Rejection Output Current Overcurrent Limit Initiation Shortcircuit Output Current Load Transient Settling Time Turn-on Time Isolation Voltage Test Conditions Vo = 5V Io = 0 to 20A (Operating Conditions) Vi = 400V Io = 20A Vi = 300V Io = 0A (No Load) 5.09 2.6 40 1.2•Vo ± 0.1 ± 0.1 0.6 500 55 0 21 18 δIo = 1A Io = 20A 3750 500 2500 150 80 81 7.5 0 – 40 +70 +100 kHz % °C/W °C °C 23 23 300 6 10 20 25 28 Min 200 Typ 300 40•10-6 2.5 5.20 5.30 5.20 50 Max 400 Unit VDC C W V V mVpp V % % V mVp dB A A A µs ms VRMS Vi = 200 to 400V Io = 0 to 20A Vi = 200 to 400V Io = 0 to 20A (see fig. 2) Vi = 300V Io = 20A BW = 0 to 20Mhz Vi = 200 to 400V Io = 0 to 20A Vi = 200 to 400V Io = 20A Vi = 300V Io = 0 to 20A Vi = 200 to 400V Vi = 300V f = 100Hz Vi = 200 to 400V Vo = 5V Vi = 300V Vi = 300V Vi = 300V Vi = 200V δIo = 1A Input to Output Output to Baseplate Input to Baseplate fs η R th Tcop Tstg Switching Frequency Efficiency Thermal Resistance Operating Case Temperature Range Storage Temperature Range Vi = 200 to 400V Io = 0 to 20A Vi = 300V Io = 20A Baseplate to Ambient 3/10 GS70/100T300 Family GS100T300-12ELECTRICAL CHARACTERISTICS (Tamb = 25°C unless otherwise specified) Symbol Vi Qi Pi Vo Vo Vorn Vol δVOL δVOO ∆ Vo δ Vo SVR Io IoI Iosc ts ton Vis Parameter Input Voltage Inrush Charge Input Power Output Voltage Output Voltage Range Output Ripple and Noise Voltage Output Overvoltage Limit Initiation Line Regulation Load Regulation Total Remote Sense Compensation Peak Load Transient Response Supply Voltage Rejection Output Current Overcurrent Limit Initiation Shortcircuit Output Current Load Transient Settling Time Turn-on Time Isolation Voltage Test Conditions Vo = 12V Io = 0 to 8.3A (Operating Conditions) Vi = 400V Io = 8.3A Vi = 300V Io = 0A (No Load) 11.76 6.0 100 1.2•Vo ± 0.1 ± 0.1 0.6 500 45 0 8.8 7.5 δIo = 4A Io = 8.3A 3750 2500 500 150 83 84 7.5 0 – 40 +70 +100 kHz % °C/W °C °C 9.1 9.0 300 6 10 8.3 11.0 11.0 Min 200 Typ 300 40•10-6 2.5 12.00 12.24 13.2 120 Max 400 Unit VDC C W V V mVpp V % % V mVp dB A A A µs ms VRMS Vi = 200 to 400V Io = 0 to 8.3A Vi = 200 to 400V Io = 0 to 8.3A (see fig. 2) Vi = 300V Io = 8.3A BW = 0 to 20Mhz Vi = 200 to 400V Io = 0 to 8.3A Vi = 200 to 400V Io = 8.3A Vi = 300V Io = 0 to 8.3A Vi = 200 to 400V Vi = 300V f = 100Hz Vi = 200 to 400V Vo = 12V Vi = 300V Vi = 300V Vi = 300V Vi = 200V δIo = 4A Input to Output Input to Baseplate Output to Baseplate fs η R th Tcop Tstg Switching Frequency Efficiency Thermal Resistance Operating Case Temperature Range Storage Temperature Range Vi = 200 to 400V Io = 0 to 8.3A Vi = 300V Io = 8.3A Baseplate to Ambient 4/10 GS70/100T300 Family GS100T300-15ELECTRICAL CHARACTERISTICS (Tamb = 25°C unless otherwise specified) Symbol Vi Qi Pi Vo Vo Vorn Vol δVOL δVOO ∆ Vo δ Vo SVR Io IoI Iosc ts ton Vis Parameter Input Voltage Inrush Charge Input Power Output Voltage Output Voltage Range Output Ripple and Noise Voltage Output Overvoltage Limit Initiation Line Regulation Load Regulation Total Remote Sense Compensation Peak Load Transient Response Supply Voltage Rejection Output Current Overcurrent Limit Initiation Shortcircuit Output Current Load Transient Settling Time Turn-on Time Isolation Voltage Test Conditions Vo = 15V Io = 0 to 6.6A (Operating Conditions) Vi = 400V Io = 6.6A Vi = 300V Io = 0A (No Load) 14.7 7.5 110 1.2•Vo ± 0.1 ± 0.1 0.6 500 45 0 7.1 6.5 δIo = 3.3A Io = 6.6A 3750 2500 500 150 84 85 7.5 0 – 40 +70 +100 kHz % °C/W °C °C 7.5 8.0 300 6 10 6.6 8.0 10.0 Min 200 Typ 300 40•10-6 2.5 15.0 15.3 16.5 150 Max 400 Unit VDC C W V V mVpp V % % V mVp dB A A A µs ms VRMS Vi = 200 to 400V Io = 0 to 6.6A Vi = 200 to 400V Io = 0 to 6.6A (see fig. 2) Vi = 300V Io = 6.6A BW = 0 to 20Mhz Vi = 200 to 400V Io = 0 to 6.6A Vi = 200 to 400V Io = 6.6A Vi = 300V Io = 0 to 6.6A Vi = 200 to 400V Vi = 300V f = 100Hz Vi = 200 to 400V Vo = 15V Vi = 300V Vi = 300V Vi = 300V Vi = 200V δIo = 3.3A Input to Output Input to Baseplate Output to Baseplate fs η R th Tcop Tstg Switching Frequency Efficiency Thermal Resistance Operating Case Temperature Range Storage Temperature Range Vi = 200 to 400V Io = 0 to 6.6A Vi = 300V Io = 6.6A Baseplate to Ambient 5/10 GS70/100T300 Family GS100T300-24ELECTRICAL CHARACTERISTICS (Tamb = 25°C unless otherwise specified) Symbol Vi Qi Pi Vo Vo Vorn Vol δVOL δVOO ∆ Vo δ Vo SVR Io IoI Iosc ts ton Vis Parameter Input Voltage Inrush Charge Input Power Output Voltage Output Voltage Range Output Ripple and Noise Voltage Output Overvoltage Limit Initiation Line Regulation Load Regulation Total Remote Sense Compensation Peak Load Transient Response Supply Voltage Rejection Output Current Overcurrent Limit Initiation Shortcircuit Output Current Load Transient Settling Time Turn-on Time Isolation Voltage Test Conditions Vo = 24V Io = 0 to 4.2A (Operating Conditions) Vi = 400V Io = 4.2A Vi = 300V Io = 0A (No Load) 23.5 12.0 200 1.2•Vo ± 0.1 ± 0.1 0.6 500 40 0 4.5 3.8 δIo = 2.1A Io = 4.2A 3750 2500 500 150 84 85 7.5 0 – 40 +70 +100 kHz % °C/W °C °C 5.0 4.5 300 6 10 4.2 5.5 6.0 Min 200 Typ 300 40•10-6 2.5 24.0 24.5 26.4 240 Max 400 Unit VDC C W V V mVpp V % % V mVp dB A A A µs ms VRMS Vi = 200 to 400V Io = 0 to 4.2A Vi = 200 to 400V Io = 0 to 4.2A (see fig. 2) Vi = 300V Io = 4.2A BW = 0 to 20Mhz Vi = 200 to 400V Io = 0 to 4.2A Vi = 200 to 400V Io = 4.2A Vi = 300V Io = 0 to 4.2A Vi = 200 to 400V Vi = 300V f = 100Hz Vi = 200 to 400V Vo = 24V Vi = 300V Vi = 300V Vi = 300V Vi = 200V δIo = 2.1A Input to Output Input to Baseplate Output to Baseplate fs η R th Tcop Tstg Switching Frequency Efficiency Thermal Resistance Operating Case Temperature Range Storage Temperature Range Vi = 200 to 400V Io = 0 to 4.2A Vi = 300V Io = 4.2A Baseplate to Ambient 6/10 GS70/100T300 Family GS100T300-48ELECTRICAL CHARACTERISTICS (Tamb = 25°C unless otherwise specified) Symbol Vi Qi Pi Vo Vo Vorn Vol δVOL δVOO ∆ Vo δ Vo SVR Io IoI Iosc ts ton Vis Parameter Input Voltage Inrush Charge Input Power Output Voltage Output Voltage Range Output Ripple and Noise Voltage Output Overvoltage Limit Initiation Line Regulation Load Regulation Total Remote Sense Compensation Peak Load Transient Response Supply Voltage Rejection Output Current Overcurrent Limit Initiation Shortcircuit Output Current Load Transient Settling Time Turn-on Time Isolation Voltage Test Conditions Vo = 48V Io = 0 to 2.1A (Operating Conditions) Vi = 400V Io = 2.1A Vi = 300V Io = 0A (No Load) 47.04 24.0 400 1.2•Vo ± 0.1 ± 0.1 0.6 500 35 0 2.1 1.8 δIo = 1A Io = 2.1A 3750 2500 500 150 84 85 7.5 0 – 40 +70 +100 kHz % °C/W °C °C 2.3 2.3 300 6 10 2 2.5 2.8 Min 200 Typ 300 40•10-6 2.5 48.00 48.96 52.8 500 Max 400 Unit VDC C W V V mVpp V % % V mVp dB A A A µs ms VRMS Vi = 200 to 400V Io = 0 to 2.1A Vi = 200 to 400V Io = 0 to 2.1A (see fig. 2) Vi = 300V Io = 2.1A BW = 0 to 20Mhz Vi = 200 to 400V Io = 0 to 2.1A Vi = 200 to 400V Io = 2.1A Vi = 300V Io = 0 to 2.1A Vi = 200 to 400V Vi = 300V f = 100Hz Vi = 200 to 400V Vo = 48V Vi = 300V Vi = 300V Vi = 300V Vi = 200V δIo = 1A Input to Output Input to Baseplate Output to Baseplate fs η R th Tcop Tstg Switching Frequency Efficiency Thermal Resistance Operating Case Temperature Range Storage Temperature Range Vi = 200 to 400V Io = 0 to 2.1A Vi = 300V Io = 2.1A Baseplate to Ambient 7/10 GS70/100T300 Family CONNECTION DIAGRAM AND MECHANICAL DATA Figure 1. Package R; dimensions in mm (inches) PIN DESCRIPTION Pin 1 2 3 4,5 6,7 8 9 10 8/10 Function ENABLE - Vin + Vin + Vo - Vo + SENSE - SENSE ADJ Description The converter is ON (Enable) when the voltage applied to this pin with reference to pin 2 is lower than 1.2V. The converter is OFF (Inhibit) for a control voltage in the range of 2.1 to 5V. When the pin is unconnected the converter is OFF (Inhibit). Negative input voltage. Positive input voltage. Unregulated input voltage in the range of 200 to 400Vdc must be applied between pin 2-3. +Vo output voltage. +Vo output voltage return. Senses the remote load high side. To be connected to pins 4,5 when remote sense is not used. Senses the remote load return. To be connected to pins 6,7 when remote sense is not used. Adjust output voltage pin. A voltage generator between the ADJ. pin and -SENSE pin sets the Vo. When unconnected Vo is at nominal value (see fig. 2). GS70/100T300 Family ADJUSTMENT OF THE OUTPUT VOLTAGE The output voltage can be fixed following the indications given in fig. 2. The external reference voltage Vadj can be calculated using the following formula: Vadj = 5 • Vo Vnom The Vout and Vadj ranges are given in the following table: Table 1: Output voltage generation with external voltage generator Type GS70T300-3.5 GS100T300-5 GS100T300-12 GS100T300-15 GS100T300-24 GS100T300-48 Nominal Output Voltage (V) 3.5 5.2 12.0 15.0 24.0 48.0 Output Voltage Range (Vout) 1.75 to 3.50 2.60 to 5.20 6.00 to 13.20 7.50 to 16.50 12.00 to 26.40 24.00 to 52.80 External Voltage Generator allowed Range (Vadj) 2.5 to 5.0 2.5 to 5.0 2.5 to 5.5 2.5 to 5.5 2.5 to 5.5 2.5 to 5.5 Figure 2. Output voltage adjustment 9/10 GS70/100T300 Family Safety approvals The converter is agency certified to the following safety requirements. Agency UL TUV Requirements UL-STD-1950 EN 60950 License Number E141284 R 9371740.1 ® UL is a registered trademark of UNDERWRITERS LABORATORIES inc. ® TUV is a registered trademark of TUV Rheinland. Information furnished is believed to be accurate and reliable. However, SGS-THOMSON Microelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of SGS-THOMSON Microelectronics. Specification mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. SGS-THOMSON Microelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of SGS-THOMSON Microelectronics. © 1994 SGS-THOMSON Microelectronics – All Rights Reserved ® UL is a registered trademark of UNDERWRITERS LABORATORIES inc. ® TUV is a registered trademark of TUV Rheinland. SGS-THOMSON Microelectronics GROUP OF COMPANIES Australia - Brazil - China - France - Germany - Hong Kong - Italy - Japan - Korea - Malaysia - Malta - Morocco - The Netherlands Singapore - Spain - Sweden - Switzerland - Taiwan - Thailand - United Kingdom - U.S.A. 10/10