DP Series PART NUMBER NOMENCLATURE (E) DC Load Reversing Solid State Contactors Crydom's advanced DC Switching Technology is now conveniently packaged in a High Power "H-Bridge" configuration with optional Soft Start/Ramp Up, Soft Stop/Ramp Down & Brake features for use in DC Load Reversing applications including motors, brakes, clutches, electro magnets, solenoids, plating baths and electrolytic cells. The DP Series Solid State DC Reversers are an all-solid-state design with 2.5 Kv Optical Isolation and incorporate low dissipation power FETs for fast and efficient Load control. Series DP 4R SB D 60 Function 4R: 4 Channel DC Reversing 40 Rated Operating Voltage 60: 48 VDC Convenient FET switches in H-bridge configuration Built-in protective Forward/Reverse interlock function UL & IEC ratings for general use & Motor loads LED Status indicators for Operating Modes H Thermal Pad Blank: Not Included H: Included DERATING CURVES (B) 70 Please read all installation instructions before using your DP Series Solid State Contactor (SSC). 60 Choose one of the two mounting options and follow the instructions. Mounting on Heat Sink Select adequate heat sink (see thermal derating curves). (B) l pad Therma Be sure to use thermal pad or grease between the SSC and the selected heat sink. Load Current (Amps) MOUNTING INSTRUCTIONS (A) DP Series Contactor mounting slots have a diameter of 0.2 in (5.0 mm). Four screws are needed (not included) to mount the SSC onto heat sink (See Fig. 1). Choose screw length considering the mounting surface and that DP Series baseplate thickness is 0.125 in (3.2 mm). B Operational Current 20: 20 Amps 40: 40 Amps 60: 60 Amps Required for valid part number For options only and not required for valid part number FEATURES Stop Mode Blank: Stop Mode matches Start Mode B2: Dynamic Brake, 0.2 sec B5: Dynamic Brake, 0.5 sec B8: Dynamic Brake, 0.8 sec B: Dynamic Brake, Continuous Start Mode Blank: Start SA: Soft Start/Ramp Up, 0.2 sec Control Voltage SB: Soft Start/Ramp Up, 0.5 sec D: 4.5-15 VDC E: 18-32 VDC SC: Soft Start/Ramp Up, 1 sec DP4Rxx60x60xx 50 DP4Rxx60x40xx 40 30 DP4Rxx60x20xx 20 10 0 20 30 40 50 60 70 80 Ambient Temperature (C) TABLE 1 fig. 1 DP Series SSC mounted on HS053 heat sink (A) DP Series Part No. Before applying full torque tighten down all 4 screws until they contact the baseplate. Then, tighten them to 20 in-lbs (2.2 Nm) starting with one immediately followed by the one in the diagonally opposite corner. After the first 2 screws are completely tightened, proceed tightening the remaining 2 screws. Required Heat Sink Crydom Heat Sink Part No. [C/W] DP4Rxx60x20xx DP4Rxx60x40xx 1.5 1.0 HS103/HS103DR HS103/HS103DR DP4Rxx60x60xx 0.5 HS053 For optimal thermal performance heat sink fins should be oriented vertically to natural airflow. Mounting on Panel Locate the panel section on which the DP Series SSC will be mounted. Panel mount surface must provide adequate heat sinking capability. (B) Be sure to use thermal pad or grease between the SSC and the panel. DP Series Contactor mounting slots have a diameter of 0.2 in (5.0 mm). Four screws are needed (not included) to mount the SSC onto panel. Choose screw length considering the mounting surface and that DP Series baseplate thickness is 0.125 in (3.2 mm). TABLE 2 Status Functions Green LED (Forward) Yellow LED (Reverse) Initial Logic Supply Voltage On Flash Twice Flash Twice Forward ON ON OFF Reverse ON OFF ON Flash Once Flash Once Flash 3x Intermittently Flash 3x Intermittently Dynamic Brake Interlocking TABLE 3 Before applying full torque tighten down all 4 screws until they contact the baseplate. Then, tighten them to 20 in-lbs (2.2 Nm) starting with one immediately followed by the one in the diagonally opposite corner. After the first 2 screws are completely tightened, proceed tightening the remaining 2 screws. WIRING DIAGRAM (C) DC Power Supply Output Terminal Maximum Torque lbs in (N m) Wire Size for Max. Ratings AWG (mm2) Screw / Clamp Combo Type 10-32 20 (2.2) 12 (3.3) DP4Rxx60x40xx Hex Screw Type 1/4-20 with lock washers 25 (2.8) 8 (8.4) DP4Rxx60x60xx Hex Screw Type 1/4-20 with lock washers 25 (2.8) 6 (13.3) DP Series Part No. DP4Rxx60x20xx TABLE 4 Accessories 1/- DC POWER SUPPLY SIDE 4 / L2 LOAD SIDE +VCC 2/+ 5 6 7 8 (D) 3 / L1 Motor GND Resistance HK1 HS053 HS103 HS103DR HSP-3 HSP-5 TRM1 TRM6 DP4Rxx60x20xx +FWD DP4Rxx60x40xx +REV DP4Rxx60x60xx (A) (B) (C) (D) (E) DC Cell DP Series Part No. See compatible accessories in TABLE 4. For maximum ratings use heat sink ratings in TABLE 1. Terminal (3/L1) is (+) during Forward operation. Terminal (4/L2) is (+) during Reverse operation. Suggested Input Mating Connector/Plug : Crimp Housing, Positive Latch (Molex 050579404). For a complete description of available Operating Modes, see definitions on reverse side of this sheet. Rev. 060211 OPERATING MODES Start: When either FWD or REV Control signal is applied, and after Control Signal Validation Delay, DC power supply on terminals 1/- and 2/+ is directly connected to Load at terminals 3/L1 and 4/L2 with a polarity according to the control signal. The start option can be combined with Stop and/or Dynamic Brake options. the Load will remain continuously de-energized waiting for a new FWD or REV Control signal. Soft Stop/Ramp Down time is tied to Soft Start/Ramp Up time selected by SA, SB and SC suffixes and can be combined with Soft Start/Ramp Up only. Stop: Load is disconnected from DC power supply. All FET switches (S1, S2, S3 & S4) inside the DP Series SSC are turned off. This simple Stop option is available only in combination with the simple Start option (suffix Blank). Dynamic Brake: It could be used as a modified Stop where the FET switches inside the DP Series SSC are arranged in such a way that they provide a path for the Load Current to keep flowing after the DC power supply has been disconnected. This mode allows for energy stored in some type of loads to be discharged. i.e. back EMF on DC motors. Timing for Dynamic Brake is selected by suffixes B2, B5, B8 and B where the latest will keep the braking or discharging path enabled for as long as FWD and REV Control signals are removed. Soft Start/Ramp Up: It is a modified Start where the DC power supply is connected to the load using a 200 Hz pulse width modulation with a duty cycle going from 10% to 100%. Soft Start/Ramp Up time is defined by SA, SB and SC suffixes. After Soft Start/Ramp Up time is elapsed, the Load will remain continuously energized for as long as FWD or REV Control signal is applied. This option can be combined with Soft Stop/Ramp Down and Dynamic Braking modes, but not with simple Stop. Soft Stop/Ramp Down: It is a modified Stop where the DC power supply is disconnected from the Load using a 200 Hz pulse width modulation with a duty cycle going from 100% to 0%. After Soft Stop/Ramp Down time is elapsed, Interlock: It will shut down all FET switches inside the DP Series SSC within 0.2 sec after both control signals FWD and REV are applied at the same time. An Interlock condition will trigger a modified Stop such as Soft Stop/Ramp Down or Dynamic Brake whenever an option has been selected. Control Signals + VFWD Forward Control 0 + VREV Reverse Control 0 Load Voltage Signals (F) S1, S4 Start Stop DP4R60xxx S1, S4 3 / L1 = + S2, S3 Int : Interlock 0 - VDCS t : Control Signal Validation Delay 4 / L2 = + = 0.2 sec, except for t t S1, S4 Start Dynamic Brake DP4R60xxxBx S2, S3 + VDCS S3, S4 Int t t t1 + VDCS Int t1 : 0.15 sec Break-before-make t1 delay tB : Dynamic Brake time 0 - VDCS B2: 0.2 sec t t 1 tB S1, S4 t Int t t1 tB S1, S4 S2, S3 t Int B: Continuous tSP : Soft Stop/Ramp Down time = tST tST : Soft Start/Ramp Up time t tST tSP S1, S4 t S3, S4 Int t tST tSP t t1 Soft Start/Ramp Up + VDCS Dynamic Brake 0 DP4RSx60xxxBx - VDCS B5: 0.5 sec B8: 0.8 sec S3, S4 Soft Start/Ramp Up + VDCS Soft Stop/Ramp Down 0 DP4RSx60xxx - VDCS Start / Stop (0.025 sec) Int SA: 0.2 sec SB: 0.5 sec SC: 1 sec t1 VDCS: VDC power supply VFWD: Forward Control Signal VREV: Reverse Control Signal t tST t1 tB t Int t tST t1 tB t Int Rev. 060211 (F) Load voltage signals shown are typical of a DC motor, behavior may change for other load types.