S P E P ro d u c t N u m b e r : PT-RZ370 P ro d u c t N a m e : DLP ™ Projector C F I L E As of November 2012. Specifications and appearance are subject to change without notice.
S P E C F I L E PT-RZ370 DLP ™ Projectors Specifications Main unit Power supply Power consumption DLP™ chip Panel size Display method Pixels Lens Throw ratio Light source Screen size Brightness* 3 Center-to-corner uniformity* 3 Contrast* 3 Resolution Scanning frequency HDMI/DVI-I (digital) DVI-I (analog)/RGB YPBPR (YCBCR) Video Optical axis shift Keystone correction range Installation Terminals HDMI IN DVI-I IN Digital R, G, B 100 – 240 V AC, 5.2 – 2.
S P E C F I L E PT-RZ370 DLP ™ Projectors COMPUTER (RGB) IN R, G, B D-sub HD 15-pin (female) × 1 R: 0.7 Vp-p, 75 ohms, G: 0.7 Vp-p (G: 1.0 Vp-p for sync on G), 75 ohms, B: 0.7 Vp-p, 75 ohms HD/VD, SYNC: TTL, high impedance, positive/negative automatic NOTE: HD/SYNC, and VD terminals do not accept tri-level sync signals.
S P E C F I L E PT-RZ370 DLP ™ Projectors 408.7 (16-3/32) 415 (16-11/32) Dimensions 128.5 (5-1/16) 137 (5-13/32) (2-27/32) 72 unit : mm (inch) NOTE: This illustration is not drawn to scale.
S P E C F I L E PT-RZ370 DLP ™ Projectors Standard setting-up position ∅60.5 (∅2-3/8) H Upper edge of projected image Illustrations show the projector installed using optional ceiling mount bracket ET-PKR100H. 402.5– 482.5 (15-27/32 – 19) 339–419 * (13-11/32 – 16-1/2) NOTE: This illustration is not drawn to scale. * Adjustable in 40 mm (1-9/16 in) steps.
S P E C F I L E PT-RZ370 DLP ™ Projectors Calculation of the projection distance For a screen size different from the above, use the equation below to calculate the projection distance. Aspect ratio 16:9 minimum L (m) = (diagonal screen size in inches) × 0.0329 – 0.0544 maximum L (m) = (diagonal screen size in inches) × 0.0656 – 0.0408 NOTE: Distances calculated with the above equations will include a slight error.
S P E C F I L E PT-RZ370 DLP ™ Projectors List of compatible signals The signals that can be input to this projector are shown in the table below. Horizontal scanning frequencies of 15 kHz to 100 kHz, vertical scanning frequencies of 24 Hz to 120 Hz, and a dot clock of 162 MHz maximum can be input. NOTE: The native resolution of this projector is 1,280 × 800 pixels.
S P E F C I L E PT-RZ370 DLP ™ Projectors Serial connector The serial connector complies with RS-232C. To control the projector from a personal computer, commands must be input through communication software, based on the format and satisfying the communication conditions shown below. Pin assignments and signal names 6 No. 1 2 3 4 5 9 1 5 Signal name – TXD RXD – GND Description NC Send data Receive data Connected internally Ground No.
S P E C F I L E PT-RZ370 DLP ™ Projectors Cable specifications Projector 1 PC (DTE) NC NC 2 2 3 3 4 NC NC NC NC 6 7 7 8 8 9 4 5 5 6 1 NC NC 9 Control commands * Command : Parameter Function PON POF IIS:DL1 IIS:HD1 IIS:DVI IIS:RG1 IIS:VID IIS: DL1:HD1 IIS: DL1:HD2 IIS: DL1:PC1 IIS: DL1:PC2 IIS: DL1:VID IIS: DL1:SVD OSH:0 OSH:1 OFZ:0 OFZ:1 OAS OLP:* OLP:* OLP:* OLP:* VPM:NAT VPM:STD VPM:DYN VPM:CIN VPM:GRA VPM:DIC VPM:709 OTE:1 OTE:2 OTE:4 OTE:10 TSD:y1y2y3y4 m1m2d1d2w TST:
S P E C F I L E PT-RZ370 DLP ™ Projectors Status request commands Command : Parameter QPW Function Standby power status QSH AV mute status QFZ Freeze function status QOS On-screen display status QST QLP Projector run time Light source power mode status QPM Picture mode status QTM:0 QTM:2 QTM:3 QTM:4 QTM:5 QTM:6 QGD QGT Temperature status Callback 000 001 DL1 HD1 DVI RG1 RG2 VID DL1*HD1 DL1*HD2 DL1*PC1 DL1*PC2 DL1*VID DL1*SVD 0 1 0 1 0 1 p1p2p3p4p5 OLP:0 OLP:6 OLP:7 OLP:1 NAT STD DYN C
S P E C F I L E PT-RZ370 DLP ™ Projectors Notes on projector placement and operation Please observe the following precautions for projector placement and operation. 1. Never place objects on top of the projector while it is operating. 2. Make sure there is an unobstructed space of 500 mm (1 feet 8 inches) or more around the projector’s exhaust openings. 3. Do not stack projector units directly on top of one another for the purpose of multiple (stacked) projection.
