Differences

This shows you the differences between two versions of the page.

--- faq:xpc_slim:dn11h9 [2026/01/23 14:56] – Shuttle
+++ faq:xpc_slim:dn11h9 [2026/01/23 15:21] (current) – Shuttle
@@ Line 13: / Line 13: @@
 ===== Hardware & Performance =====
-==== What CPU architecture is used and does it support AI acceleration? ====
-The DN11H5 is powered by the **Intel Core Ultra 5 125H** processor ("Meteor Lake-H"). It features a hybrid architecture with 14 cores (4 Performance, 8 Efficient, 2 Low-Power Efficient) and supports 18 threads.
-Crucially, it integrates an **NPU (Neural Processing Unit)** branded as "Intel AI Boost" delivering approx. 11.5 TOPS dedicated AI performance (Total System AI Performance: ~34 TOPS). This allows for local AI inference (e.g., OpenVINO, Windows Studio Effects) without a dedicated GPU.
 ==== What is the maximum RAM capacity and which type is required? ====
@@ Line 24: / Line 21: @@
 **Note:** Supports non-ECC modules only. The 96 GB capacity (2x 48 GB modules) is officially validated, making it suitable for memory-intensive virtualization or data analysis tasks.
-==== Is the DN11H5 a fanless system? ====
+==== Is the DN11 a fanless system? ====
-**No.** Unlike many other "Slim" series models (e.g., DL-series), the DN11H5 is **actively cooled**.
+**No.** Unlike many other "Slim" series models (e.g., DS/DL-series), the DN11 is **actively cooled**.
-It utilizes a heatpipe cooling system with two 60mm fans (Smart Fan system) to dissipate the heat generated by the 28W TDP (Turbo power up to 115W) Meteor Lake processor. It is designed for 24/7 operation but should not be placed in environments requiring strictly sealed/passive chassis.
+It utilizes a heatpipe cooling system with a 80mm fan (RPM-controlled Smart Fan system) to dissipate the heat generated by the Meteor Lake processor. It is designed for 24/7 operation but should not be placed in environments requiring strictly sealed/passive chassis.
 ===== Storage & Expansion =====
@@ Line 37: / Line 34: @@
 ==== Can I install a 2.5" drive? ====
-No. The DN11H5 design prioritizes M.2 density and airflow. There is **no 2.5" drive bay** inside the chassis. Storage is exclusively M.2-based.
+No. The DN11 design prioritizes M.2 density and airflow. There is **no 2.5" drive bay** inside the chassis. Storage is exclusively M.2-based.
 ===== Connectivity & Network =====
@@ Line 65: / Line 62: @@
 ==== What is the operating temperature range? ====
 The approved ambient operating temperature range is **0°C to 50°C** (at non-condensing humidity).
 **Recommendation:** Ensure sufficient airflow around the intake/exhaust vents, especially if operating near the 50°C limit under full AI/CPU load.
@@ Line 72: / Line 70: @@
   * **Input:** 100~240V AC
   * **Connector:** 5.5/2.5mm barrel plug.
+===== Advanced Configuration & Integration =====
+==== How can I utilize the "Remote Power On" connector on the back panel? ====
+The DN11 features a specialized **4-pin header (2.54 mm pitch)** on the back panel for external control (e.g., for kiosks or rackmount setups). This header combines power control and CMOS reset functions.
+The pinout is as follows (Left to Right, looking at the back):
+^ Pin ^ Signal ^ Description ^
+| 1 | Clear CMOS | Connect to Ground to reset BIOS settings |
+| 2 | +5V DC | Power source for external Power LED |
+| 3 | Ground | Common Ground |
+| 4 | Power SW | Connect to Ground (momentary) to turn the system On/Off |
+**Note:** Shuttle offers an optional cable accessory (**CXP01**) that breaks these pins out for easier integration.
+==== How do I enable the "Always-On" function via hardware jumper? ====
+While the BIOS offers a "Power-On after Power-Fail" setting, the DN11 also features a hardware jumper for mission-critical "Always-On" scenarios (bypassing the soft-off state entirely).
+**Location:** Locate the jumper labeled **JP1** (typically near the front panel connectors).
+**Setting:**
+  * **Pin 1-2 bridged (Default):** Normal operation (Power button controls state).
+  * **Pin 1-2 open:** Always-On Hardware Mode (System starts immediately when power is applied).
+==== Can the system be mounted on a DIN-Rail or in a 19" Rack? ====
+Yes, besides the included VESA mount (75x75 / 100x100 mm), the chassis supports industry-standard mounting kits:
+  * **DIN-Rail:** Requires the optional accessory **DIR01** (mounts the unit on a 35mm DIN-Rail).
+  * **Rackmount:** Requires the optional accessory **PRM01** (2U rack mount front plate for two 1.3L units side-by-side).
+===== BIOS & Security =====
+==== Does the DN11 support Watchdog functionality? ====
+Yes, the system hardware monitor (ITE IT8613E or compatible controller) supports a Watchdog Timer.
+**Configuration:** The Watchdog can be configured in the BIOS under the "Advanced" -> "Hardware Health Configuration" (or similar) menu.
+**Software:** Shuttle provides a **Watchdog Utility** for Windows (available in the download center) to reset the timer from the OS level. Linux users can utilize standard `iTCO_wdt` or comparable kernel modules, though specific I/O mapping might be required depending on the kernel version.
+==== How is the TPM implemented? ====
+The system utilizes a **Firmware TPM (fTPM) 2.0** integrated into the Intel Core Ultra chipset.
+**BIOS Setting:** Under "Security" -> "TPM Configuration", ensure "Security Device Support" is set to **Enabled**.
+**Usage:** It is fully compatible with Windows 11 BitLocker and other security features requiring TPM 2.0. There is no header for a discrete physical TPM module.
+===== Maintenance & Cooling =====
+==== How do I perform a "Clear CMOS" without opening the chassis? ====
+You can use the **Pin 1 & Pin 3** of the remote power header on the back panel (see "Remote Power On" question above).
+  -Disconnect the AC power cord.
+  -Bridge Pin 1 and Pin 3 for approx. 10 seconds using a jumper or conductive object.
+  -Remove the bridge, reconnect power, and power on.
 ==== Related links ====
 {{backlinks>.}}