Transform your home with the latest multi-electronics solutions, from intelligent lighting to vOptimize your operations with the Bently Nevada 3500 Monitoring System, offering real-time vibration and machinery condition monitoring to prevent failures and maximize uptime.oice-controlled devices all designed to make life easier, safer, and more connected.
SKU:3BSC610067R1
ABB SD834 3BSC610067R1 24V DC 20A Power Supply Module
Manufacturer: ABB
Product No.: 3BSC610067R1
Product Type: Power Supply
Product Origin: Sweden
Payment:T/T, Western Union
Weight: 1200g
Shipping port: Xiamen
Warranty: 12 months
Share
- Fast Delivery
- 24/7 Support
- Quality Assurance
Description
Product Overview
The ABB SD834 (Part Number: 3BSC610067R1) is a highly efficient, industrial-grade switch-mode power supply designed to deliver stabilized 24 V d.c. power to critical process automation systems. Engineered for high-reliability environments such as SELV (Safety Extra-Low Voltage) and PELV (Protected Extra-Low Voltage) applications, this robust 480W power module provides a nominal output current of 20 A. It supports a broad mains input voltage range, features automatic load sharing for parallel operation, and includes a built-in supervision relay to continuously monitor output status and system health.
Key Advantages
- Outstanding Conversion Efficiency: Features a high energy-efficiency rating of up to 92.4% / 93.9%, minimizing thermal dissipation inside control cabinets and extending component lifespans.
- Robust Overload & Short Circuit Recovery: Utilizing an intelligent "Hiccup" protection mode (2s on, 17s off) for secondary short circuits, the module automatically recovers without requiring manual intervention or system resets.
- Superior Power Hold-Up Capabilities: Engineered with premium internal storage capacitors to sustain output voltage during temporary mains sagging, providing critical hold-up times (e.g., up to 100 ms typical at 230 V / 10 A).
- Flexible Input Compatibility: Operates reliably under wide AC and DC supply fluctuations (85-276 V a.c. / 88-187 V d.c.), making it ideal for worldwide power grids and industrial battery backup systems.
Technical Specifications
| Model Designation | SD834 |
| Article Number | 3BSC610067R1 |
| Rated Output Power / Current | 480 W / 20 A (Maximum 30 A for < 4 s) |
| Rated Output Voltage | 24 V d.c. (Ripple < 100 mV) |
| Mains Input Range (AC/DC) | 100-240 V a.c. (Allowed: 85-276 V a.c.), 110-150 V d.c. (Allowed: 88-187 V d.c.) |
| Peak Inrush Current | < 13 A |
| Over-Voltage Protection | < 37 V d.c. |
| Supervision Relay | Yes (Integrated contact) |
| Physical Dimensions | 82 mm (W) x 127 mm (D) x 124 mm (H) / 3.23" x 5.0" x 4.88" |
| Net Weight | 1200 g (2.6 lbs.) |
| Max Ambient Operating Temp | 55 °C |
Quick Installation Tips
- DIN Rail Mounting & Clearances: Mount the module vertically on a standard 35 mm DIN rail. To ensure proper natural convection cooling, maintain a minimum airflow clearance of 40 mm above and below the device, and 15 mm on each side.
- Input Fuse Protection: While the unit features internal protection, installing a recommended external input fuse (rated between 10-20 A) on the supply line is highly recommended to protect downstream hardware and cable runs.
- Parallel Operation & Load Sharing: When connecting multiple SD834 units in parallel to increase capacity or create redundancy, make sure to adjust all output voltages to match exactly before tying the outputs together to ensure balanced load sharing.
Technical FAQs
Q1: What does "Hiccup Mode" mean when a secondary short circuit occurs?
A1: Under short-circuit conditions, the SD834 switches into a protective pulsing state (2 seconds on, 17 seconds off). This cycle repeats indefinitely without overheating or burning out the supply, and normal 24V power automatically resumes as soon as the short circuit is cleared.
Q2: Why is the hold-up time crucial, and how long can the SD834 maintain power?
A2: Hold-up time is the duration the power supply can maintain a regulated output during a brief input voltage dip. Depending on the load, the SD834 typical hold-up time ranges from 100 ms (at 230V AC input and 10A load) down to 32 ms (at 120V AC input and 20A full load), preventing controllers from rebooting during momentary grid fluctuations.
Q3: Can this module be used in both SELV and PELV electrical systems?
A3: Yes. The SD834 is fully compliant with safety requirements for Safety Extra-Low Voltage (SELV) and Protected Extra-Low Voltage (PELV) architectures, providing secure galvanic separation between high mains input voltages and low-voltage field electronics.
Additional Specifications
Scalar (V/f)
Vector
AC-powered
Buying Guide
- Confirm the exact model, part number, and specifications before ordering.
- Ensure compatibility with your current machinery or control systems.
- Reach out via sale@etowonauto.com or +8617859788089 for technical assistance.
- Review delivery options, lead times, and shipping requirements.
- Follow manufacturer instructions and best practices during installation.
Shipping And Return
In-stock items are typically dispatched the same business day. For products not currently in stock, dispatch times may vary based on availability. International shipping is available, and shipping costs are calculated according to destination, weight, and carrier selection.
Returns are accepted within 30 days of receipt, provided items are unused and in original condition. Return shipping costs are the responsibility of the customer. Please contact us before returning any item to receive return authorization.
For more details, please review our Shipping & Return Policy.

3500/61-05-CN Temperature Monitor Module | Bently Nevada
3500/22-01-02-CN TDI Module Bently Nevada
Bently Nevada 3500/42-04-00 | Seismic Monitor
-
Fast Shipping
Original industrial automation parts available for prompt shipment worldwide.
-
Easy Returns
30-day return support with a 12-month warranty for reliable after-sales protection.
-
24/7 support
Responsive professional support to help maintain stable and efficient operations.
-
Genuine & Original
100% authentic, sourced directly from trusted industrial automation manufacturers.
Technical & Buying Guide
-
Standardised 3300 Probe Workflow Cuts False Trips by 90%?
Uncalibrated Bently Nevada 3300 probe replacements are responsible for 68% of false turbine trips, costing power plan...
-
Mixed GE Fanuc & ABB Servo Faults? Fix Heavy Lathe Downtime Now?
This guide presents a data-driven Standard Operating Procedure for diagnosing cross-brand motion control faults in he...
-
Why do 68% of steam loop faults trace back to parameter mismatches?
This technical guide addresses the hidden bottleneck of cross-brand DCS and valve positioner integration in thermal p...
-
Is Your Aging GE Fanuc PLC Costing Your Rolling Mill Millions?
This technical article presents a field-validated migration strategy for replacing obsolete GE Fanuc Series 90 PLCs w...
-
Why Do 78% of Petrochemical TSI-DCS Integrations Fail Initially?
This article presents a quantified integration solution for Bently Nevada 3500 vibration systems with ABB DCS in petr...
-
Allen-Bradley vs GE Fanuc: Better PLC ROI?
This data-driven guide compares Allen-Bradley and GE Fanuc PLC controllers for discrete manufacturing Industry 4.0 up...
